The TOS9300 series is a high performance electrical safety analyzer that complies to a wide range of universal standards. Hipot, Insulation Resistance, Ground Bond, Leakage Current (touch current and protective conductor current) and partial discharge can all be tested. A total of 6 models are available for standard compliance tests in a wide variety of applications including R&D, quality assurance manufacturing lines and laboratory tests.
The TOS9303LC is the "all-rounder" model which supports AC/DC withstanding voltage, insulation resistance, AC/DC earth continuity and leakage currents tests in a single device. It can also be used for contact current, protective conductor current and patient leakage current tests
The TOS9300 series can conduct leakage current (patient current) tests for highly sensitive medical devices. Measurement networks can be easily configured via the front panel.
Electrical safety standard testing for automotive components
Compatible with both AC and DC, the TOS9303LC complies with a wide varety of safety tests for EV batteries, automotive charging devices and charging connectors. This "all-in-one" safety analyzer can meet the needs of nearly all automotive electrical safety standards.
This document provides information on the TLP2630 dual photocoupler from Toshiba consisting of a pair of GaAlAs LEDs and integrated photodetectors. It contains specifications for the electrical characteristics and switching performance including input/output ratings, isolation voltage, propagation delay and transient immunity. The document also includes application information, recommended operating conditions, test circuits and derating curves.
ESD Simulators Product Overview
Static electricity is generated along objects moving and the objects consist of electric configuration of plus and minus. When this configuration falls into disorder and inclines to the one polarity, the static electricity is generated and this phenomenon is called as electrification. The electrification is generated as result of contact, rubbing and exfoliating mainly. Also, there is one another phenomenon which is called as induced electrification in the meaning of the static electricity.
In addition, although sometime, spark phenomena which may be generated when taking a sweater off and touching onto a door knob of a vehicle in dry condition are called as static electricity as well, it should be called as “Electrostatic discharge (ESD)” correctly. In our ordinary lives, 30kV electricity can be easily generated only with putting shoes on and walking on a carpet.
“NoiseKen” ESD simulators can reproduce and simulate the ESD from a charged human body intentionally for testing whether electronic equipments become malfunctioned or work correctly with the ESD influence, and the simulators conform to IEC61000-4-2 Standard which is standardized by International Electrotechnical Committee (IEC).
This document provides specifications for the TLP141G photocoupler from Toshiba, which consists of a gallium arsenide infrared light emitting diode optically coupled to a photo thyristor. It has a peak off-state voltage of 400V minimum, trigger LED current of 10mA maximum, and isolation voltage of 2500Vrms minimum. The document includes maximum ratings, operating conditions, electrical characteristics, and graphs of characteristics like forward voltage and current.
Datasheet Metrel MI 3100 SE. Hubungi PT. Siwali Swantika 021-45850618PT. Siwali Swantika
Datasheet Metrel Multifunctional Electrical Installation Tester. Informasi lebih detail hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264.
The document summarizes the specifications of various continuity and insulation measurement devices:
- The CP-100C continuity tester measures resistance from 0-120 ohms with currents of 200mA or 20mA, and has programmable conformity thresholds of 1 or 2 ohms. It is IEC 61557-4 compliant.
- The CP-100B insulation measurement unit measures resistance from 10kohms to 999Mohms with configurable voltages from 50-1000VDC and a measuring current of at least 1mA. It has adjustable conformity thresholds and complies with IEC 61557-2.
- When used together, the CP-100C tester can display insulation readings on its screen while housed in
Original Opto TLP155E P155E 155E SOP-5 NewAUTHELECTRONIC
This document provides specifications for the Toshiba TLP155E photocoupler, which consists of a GaAlAs infrared light emitting diode and integrated high-gain photodetector housed in an SO6 package. The photodetector has a common-mode transient immunity of ±15kV/μs. Key specifications include a threshold input current of 7.5mA max, propagation delay of 200ns max, isolation voltage of 3750Vrms min, and operating temperature range of -40°C to 100°C. The TLP155E is suitable for direct gate driving of IGBTs or power MOSFETs.
MTO300 Series Automated six-winding transformer ohmmeter-
Automated 8-terminal/6-winding measurement capability, simultaneous winding magnetization, tests operation of on-load tap-changers
Built-in auto-demagnetization feature, automatic discharge power DB software (MTO330)
Available for sales, rentals, hire and lease @ http://www.supremetechnology.com.au/Default.aspx
This document provides information on the TLP2630 dual photocoupler from Toshiba consisting of a pair of GaAlAs LEDs and integrated photodetectors. It contains specifications for the electrical characteristics and switching performance including input/output ratings, isolation voltage, propagation delay and transient immunity. The document also includes application information, recommended operating conditions, test circuits and derating curves.
ESD Simulators Product Overview
Static electricity is generated along objects moving and the objects consist of electric configuration of plus and minus. When this configuration falls into disorder and inclines to the one polarity, the static electricity is generated and this phenomenon is called as electrification. The electrification is generated as result of contact, rubbing and exfoliating mainly. Also, there is one another phenomenon which is called as induced electrification in the meaning of the static electricity.
In addition, although sometime, spark phenomena which may be generated when taking a sweater off and touching onto a door knob of a vehicle in dry condition are called as static electricity as well, it should be called as “Electrostatic discharge (ESD)” correctly. In our ordinary lives, 30kV electricity can be easily generated only with putting shoes on and walking on a carpet.
“NoiseKen” ESD simulators can reproduce and simulate the ESD from a charged human body intentionally for testing whether electronic equipments become malfunctioned or work correctly with the ESD influence, and the simulators conform to IEC61000-4-2 Standard which is standardized by International Electrotechnical Committee (IEC).
This document provides specifications for the TLP141G photocoupler from Toshiba, which consists of a gallium arsenide infrared light emitting diode optically coupled to a photo thyristor. It has a peak off-state voltage of 400V minimum, trigger LED current of 10mA maximum, and isolation voltage of 2500Vrms minimum. The document includes maximum ratings, operating conditions, electrical characteristics, and graphs of characteristics like forward voltage and current.
Datasheet Metrel MI 3100 SE. Hubungi PT. Siwali Swantika 021-45850618PT. Siwali Swantika
Datasheet Metrel Multifunctional Electrical Installation Tester. Informasi lebih detail hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264.
The document summarizes the specifications of various continuity and insulation measurement devices:
- The CP-100C continuity tester measures resistance from 0-120 ohms with currents of 200mA or 20mA, and has programmable conformity thresholds of 1 or 2 ohms. It is IEC 61557-4 compliant.
- The CP-100B insulation measurement unit measures resistance from 10kohms to 999Mohms with configurable voltages from 50-1000VDC and a measuring current of at least 1mA. It has adjustable conformity thresholds and complies with IEC 61557-2.
- When used together, the CP-100C tester can display insulation readings on its screen while housed in
Original Opto TLP155E P155E 155E SOP-5 NewAUTHELECTRONIC
This document provides specifications for the Toshiba TLP155E photocoupler, which consists of a GaAlAs infrared light emitting diode and integrated high-gain photodetector housed in an SO6 package. The photodetector has a common-mode transient immunity of ±15kV/μs. Key specifications include a threshold input current of 7.5mA max, propagation delay of 200ns max, isolation voltage of 3750Vrms min, and operating temperature range of -40°C to 100°C. The TLP155E is suitable for direct gate driving of IGBTs or power MOSFETs.
MTO300 Series Automated six-winding transformer ohmmeter-
Automated 8-terminal/6-winding measurement capability, simultaneous winding magnetization, tests operation of on-load tap-changers
Built-in auto-demagnetization feature, automatic discharge power DB software (MTO330)
Available for sales, rentals, hire and lease @ http://www.supremetechnology.com.au/Default.aspx
The TLP559(IGM) is a phototransistor coupler consisting of a GaAlAs LED and photodiode on a single chip. It provides 2500V of isolation in an 8-pin DIP package. The TLP559(IGM) has guaranteed maximum propagation delay times, switching time dispersion, and high common mode transient immunity, making it suitable for isolation interfaces in motor control and other applications.
This document provides specifications for the SC100 single loop controller from M-System. The SC100 features a color LCD touch panel, universal inputs and outputs, PID control functions, alarm functions, and communication capabilities. It has two PID function blocks and supports advanced computation, sequence control, and auto-tuning functions. The controller can be programmed and configured via the touch panel or with external software. Specifications include details on inputs and outputs, display, control functions, installation requirements, and performance metrics.
The document describes optoisolator triac drivers that consist of an infrared emitting diode optically coupled to a silicon bilateral AC switch. The devices provide isolation between low voltage logic and 115/240 Vac lines, allowing random phase control of high current triacs. They feature enhanced switching stability of inductive loads. The devices have high isolation voltage, operate from -40 to 85°C, and can control solenoids, lamps, switches, and motor controls.
Original Opto TLP250 P250 DIP-8 New ToshibaAUTHELECTRONIC
This document provides information on the TLP250 photocoupler from Toshiba, including its specifications, characteristics, electrical ratings, and truth table. The TLP250 consists of an infrared LED and integrated photodetector in an 8-lead DIP package suitable for gate driving IGBT or power MOSFET circuits. It has an input threshold current of 5mA maximum, supply current of 11mA maximum, output current of ±1.5A maximum, and switching time of 0.5μs maximum.
Catalog Metasol Susol ACB LS technical
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Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer,
Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
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Địa chỉ : Số 7/31 KDC Thương Mại Sóng Thần, KP. Nhị Đồng 1, P. Dĩ An, Tx. Dĩ An, Tỉnh Bình Dương
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Email: contact@beeteco.com
Tel: 0650 3617 012
Hotline: 0909.41.61.43
Catalog đèn báo, nút nhấn, công tắc idec phi 30 mới nhất 2019CTY TNHH HẠO PHƯƠNG
Công ty Cổ phần Hạo Phương xin gửi đến Quý khách hàng catalog bản đầy đủ và mới nhất về đèn báo nút nhấn (chống cháy) phi 30 dòng EU2B của hãng Idec Izumi.
Đèn báo nút nhấn (dòng chống cháy) của nhà sản xuất Idec được sản xuất theo tiêu chuẩn IP65. Sản phấm có chất liệu bền và khả năng chịu được nhiệt tốt.
Được sử dụng rộng rãi trong các ngành công nghiệp tiềm năng bao gồm dầu khí, xử lý nước thải, hóa dầu và lọc dầu, thiết bị bán dẫn, nông nghiệp, dược phẩm và chế biến thực phẩm.
CÔNG TY CỔ PHẦN HẠO PHƯƠNG
Trụ sở chính:
Địa chỉ: Số 88 đường Vĩnh Phú 40, Kp. Hòa Long, P. Vĩnh Phú, Thuận An, Bình Dương.
Văn phòng Hà Nội:
Địa chỉ: Số 95 TT4 – KĐT Mỹ Đình Sông Đà – Phường Mỹ Đình – Q. Nam Từ Liêm – Hà Nội
Chi nhánh Cambodia:
Địa chỉ: The Park Land SenSok, Borey Chip Mong, House Number 22, P11.Sangkat Phnom Penh Thmey, Khan San Sok, Phnom Penh.
Email: cs@haophuong.com – Website: haophuong.com
Facebook: https://www.facebook.com/haophuongcompany/
HOTLINE: 1800 6547
This document summarizes the specifications and characteristics of the Toshiba TLP2309 photocoupler. The TLP2309 consists of a GaAlAs infrared LED coupled with a high-speed photo diode-transistor chip housed in an SO6 package. It guarantees operation up to 110°C with supply voltages of 3.3V or 5V. Key features include an inverter logic output, data transfer rate up to 1Mbps, common-mode transient immunity of 15kV/μs, and isolation voltage of 3750Vrms. Electrical characteristics, switching characteristics, isolation characteristics and test circuits are provided.
The document describes the UCC3895 BiCMOS advanced phase-shift PWM controller. It has features such as programmable output turn-on delay, adaptive delay set, bidirectional oscillator synchronization, and voltage-mode or current-mode control. It can operate at frequencies up to 1 MHz with typical operating current of 5 mA at 500 kHz. The UCC3895 is a phase-shift PWM controller that implements full-bridge power stage control by phase shifting one half-bridge with respect to the other, allowing constant frequency pulse-width modulation with zero-voltage switching for high efficiency at high frequencies. It improves on previous controller families with additional features such as enhanced control logic and adaptive delay set.
The TLP350 is an optocoupler consisting of a GaAlAs LED and photodetector in an 8-lead DIP package. It is suitable for gate driving IGBTs or power MOSFETs with a peak output current of ±2.5A. It has a guaranteed operating temperature range of -40 to 100°C, supply current of 2mA max, and supply voltage range of 15-30V. The TLP350 provides electrical isolation of 3750Vrms between the input and output.
Catalog Ls starvert iG5A Manuall inverter
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www.beeteco.com @ Công ty TNHH TM KT ASTER
Địa chỉ : Số 7/31 KDC Thương Mại Sóng Thần, KP. Nhị Đồng 1, P. Dĩ An, Tx. Dĩ An, Tỉnh Bình Dương
FB: www.facebook.com/beeteco
Email: contact@beeteco.com
Tel: 0650 3617 012
Hotline: 0909.41.61.43
Datasheet Metrel MI 3102BT. Hubungi PT. Siwali Swantika 021-45850618PT. Siwali Swantika
Datasheet Metrel Multifunctional Electrical Installation Tester. Informasi lebih detail hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264.
The test frequency of the 6632 Precision Impedance Analyzer is DC 10Hz-30MHz and the test signal is 10mV-2Vrms (min. resolution 1mV), and is suitable for the LCR and DCR testes of AC signals.
Original Opto NEC8701 PS8701 8701 SOP-5 NewAUTHELECTRONIC
This data sheet provides information on the PS8701 high-speed analog output photocoupler. It is a 5-pin plastic package photocoupler containing a GaAlAs LED and photodiode with integrated high-speed amplifier. It features high common mode transient immunity, high isolation voltage, and high-speed response times below 1.2 microseconds. The photocoupler is intended for applications such as computers, power supplies, and industrial equipment where electrical isolation is required.
Catalog đèn báo nút nhấn công tắc IDEC (Nhật Bản) - dòng TWCTY TNHH HẠO PHƯƠNG
Công ty Cổ phần Hạo Phương xin gửi đến quý khách hàng Catalog về đèn báo, nút nhấn, công tắc xoay Idec (Nhật Bản) phi 22 dòng TW. Catalog chứa đầy đủ thông tin về sản phẩm, kích thước và những lưu ý để sử dụng thiết bị hiệu quả.
Điểm đặc biệt của đèn báo IDEC phi 22 là có thể dễ dàng chuyển đổi từ phi 22 sang phi 25, điều mà hiếm có sản phẩm nào trên thị trường có thể làm được.
The FOD3150 is a high noise immunity, 1.0A output current gate drive optocoupler capable of driving IGBTs and power MOSFETs. It has a propagation delay of 500ns max and provides isolation of 5000VRMS. Key features include high common mode rejection ratio, wide supply voltage range of 15-30V, and an operating temperature range of -40°C to 100°C. It is well suited for applications such as industrial inverters, UPS systems, induction heating, and isolated gate drives.
Electrical test equipment for high and low voltage systems. Phasing rods, ammeter for overhead powerlines on
systems up to 36kV. Hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264
The document provides information on Susol air circuit breakers, including:
- Susol ACBs meet demands for high breaking capacity, fully lined-up panels, and optimized sizes. Accessories allow for user-friendly handling.
- Susol ACBs provide total solutions with advanced trip relays for measurement, diagnosis, analysis and communication, as well as protective functions.
- The document describes technical specifications, components, order information, and accessories of Susol ACBs.
This document provides information on the UC3844, UC3845, UC2844, and UC2845 high performance current mode controllers, including:
- Operating temperature ranges and packaging for the devices.
- Pin connections and ordering information for the different package types.
- Electrical characteristics like reference voltage, oscillator frequency, error amplifier performance, current sense input, output specifications, and undervoltage lockout thresholds.
- Graphs depicting properties like oscillator frequency vs timing resistor, output deadtime vs frequency, error amplifier gain and phase vs frequency, and more.
- An overview of key features like current mode operation, adjustable output deadtime, compensation, current limiting, undervoltage lockout,
Original IGBT Transistor GT60N322 60N322 N322 322 57A 1000V TO-3P New ToshibaAUTHELECTRONIC
This document provides specifications for the TOSHIBA Insulated Gate Bipolar Transistor Silicon N Channel IGBT GT60N322. Key details include:
- It is an enhancement mode IGBT with high speed (turn-off time of 0.11 μs) and low saturation voltage (2.4 V typical at 60 A collector current).
- It has a maximum collector-emitter voltage of 1000 V, collector current of 57 A continuous and 120 A pulsed. Junction temperature can reach 150°C.
- Electrical characteristics are provided including input capacitance, rise/fall times, switching times, forward voltage, and reverse recovery time.
- Thermal and safe operating characteristics
Fuji thiet bi dien-acbbt3fuji-160413041525 dienhathe.orgDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The Megger® DET2/3 automatic earth (ground) test instrument is
robust, compact and designed to measure earth Electrode Resistance
and Soil Resistivity. It provides a full range of test methods and excels
at the four terminal method of measurement, which eliminates the
resistance of the current circuit from the measurement.
The DET2/3 is a reliable instrument for use on large or more complex
earth systems, which include communications earth systems and
difficult test environments. It can be used to test in accordance with
BS 7430 (earthing / grounding), BS-EN-62305 (Lightning Protection),
IEEE Standard 81 and Railway Applications.
Soil Resistivity measurements are used to establish the optimum
electrode design
The TLP559(IGM) is a phototransistor coupler consisting of a GaAlAs LED and photodiode on a single chip. It provides 2500V of isolation in an 8-pin DIP package. The TLP559(IGM) has guaranteed maximum propagation delay times, switching time dispersion, and high common mode transient immunity, making it suitable for isolation interfaces in motor control and other applications.
This document provides specifications for the SC100 single loop controller from M-System. The SC100 features a color LCD touch panel, universal inputs and outputs, PID control functions, alarm functions, and communication capabilities. It has two PID function blocks and supports advanced computation, sequence control, and auto-tuning functions. The controller can be programmed and configured via the touch panel or with external software. Specifications include details on inputs and outputs, display, control functions, installation requirements, and performance metrics.
The document describes optoisolator triac drivers that consist of an infrared emitting diode optically coupled to a silicon bilateral AC switch. The devices provide isolation between low voltage logic and 115/240 Vac lines, allowing random phase control of high current triacs. They feature enhanced switching stability of inductive loads. The devices have high isolation voltage, operate from -40 to 85°C, and can control solenoids, lamps, switches, and motor controls.
Original Opto TLP250 P250 DIP-8 New ToshibaAUTHELECTRONIC
This document provides information on the TLP250 photocoupler from Toshiba, including its specifications, characteristics, electrical ratings, and truth table. The TLP250 consists of an infrared LED and integrated photodetector in an 8-lead DIP package suitable for gate driving IGBT or power MOSFET circuits. It has an input threshold current of 5mA maximum, supply current of 11mA maximum, output current of ±1.5A maximum, and switching time of 0.5μs maximum.
Catalog Metasol Susol ACB LS technical
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer,
Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
Địa chỉ : Số 7/31 KDC Thương Mại Sóng Thần, KP. Nhị Đồng 1, P. Dĩ An, Tx. Dĩ An, Tỉnh Bình Dương
FB: www.facebook.com/beeteco
Email: contact@beeteco.com
Tel: 0650 3617 012
Hotline: 0909.41.61.43
Catalog đèn báo, nút nhấn, công tắc idec phi 30 mới nhất 2019CTY TNHH HẠO PHƯƠNG
Công ty Cổ phần Hạo Phương xin gửi đến Quý khách hàng catalog bản đầy đủ và mới nhất về đèn báo nút nhấn (chống cháy) phi 30 dòng EU2B của hãng Idec Izumi.
Đèn báo nút nhấn (dòng chống cháy) của nhà sản xuất Idec được sản xuất theo tiêu chuẩn IP65. Sản phấm có chất liệu bền và khả năng chịu được nhiệt tốt.
Được sử dụng rộng rãi trong các ngành công nghiệp tiềm năng bao gồm dầu khí, xử lý nước thải, hóa dầu và lọc dầu, thiết bị bán dẫn, nông nghiệp, dược phẩm và chế biến thực phẩm.
CÔNG TY CỔ PHẦN HẠO PHƯƠNG
Trụ sở chính:
Địa chỉ: Số 88 đường Vĩnh Phú 40, Kp. Hòa Long, P. Vĩnh Phú, Thuận An, Bình Dương.
Văn phòng Hà Nội:
Địa chỉ: Số 95 TT4 – KĐT Mỹ Đình Sông Đà – Phường Mỹ Đình – Q. Nam Từ Liêm – Hà Nội
Chi nhánh Cambodia:
Địa chỉ: The Park Land SenSok, Borey Chip Mong, House Number 22, P11.Sangkat Phnom Penh Thmey, Khan San Sok, Phnom Penh.
Email: cs@haophuong.com – Website: haophuong.com
Facebook: https://www.facebook.com/haophuongcompany/
HOTLINE: 1800 6547
This document summarizes the specifications and characteristics of the Toshiba TLP2309 photocoupler. The TLP2309 consists of a GaAlAs infrared LED coupled with a high-speed photo diode-transistor chip housed in an SO6 package. It guarantees operation up to 110°C with supply voltages of 3.3V or 5V. Key features include an inverter logic output, data transfer rate up to 1Mbps, common-mode transient immunity of 15kV/μs, and isolation voltage of 3750Vrms. Electrical characteristics, switching characteristics, isolation characteristics and test circuits are provided.
The document describes the UCC3895 BiCMOS advanced phase-shift PWM controller. It has features such as programmable output turn-on delay, adaptive delay set, bidirectional oscillator synchronization, and voltage-mode or current-mode control. It can operate at frequencies up to 1 MHz with typical operating current of 5 mA at 500 kHz. The UCC3895 is a phase-shift PWM controller that implements full-bridge power stage control by phase shifting one half-bridge with respect to the other, allowing constant frequency pulse-width modulation with zero-voltage switching for high efficiency at high frequencies. It improves on previous controller families with additional features such as enhanced control logic and adaptive delay set.
The TLP350 is an optocoupler consisting of a GaAlAs LED and photodetector in an 8-lead DIP package. It is suitable for gate driving IGBTs or power MOSFETs with a peak output current of ±2.5A. It has a guaranteed operating temperature range of -40 to 100°C, supply current of 2mA max, and supply voltage range of 15-30V. The TLP350 provides electrical isolation of 3750Vrms between the input and output.
Catalog Ls starvert iG5A Manuall inverter
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
Địa chỉ : Số 7/31 KDC Thương Mại Sóng Thần, KP. Nhị Đồng 1, P. Dĩ An, Tx. Dĩ An, Tỉnh Bình Dương
FB: www.facebook.com/beeteco
Email: contact@beeteco.com
Tel: 0650 3617 012
Hotline: 0909.41.61.43
Datasheet Metrel MI 3102BT. Hubungi PT. Siwali Swantika 021-45850618PT. Siwali Swantika
Datasheet Metrel Multifunctional Electrical Installation Tester. Informasi lebih detail hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264.
The test frequency of the 6632 Precision Impedance Analyzer is DC 10Hz-30MHz and the test signal is 10mV-2Vrms (min. resolution 1mV), and is suitable for the LCR and DCR testes of AC signals.
Original Opto NEC8701 PS8701 8701 SOP-5 NewAUTHELECTRONIC
This data sheet provides information on the PS8701 high-speed analog output photocoupler. It is a 5-pin plastic package photocoupler containing a GaAlAs LED and photodiode with integrated high-speed amplifier. It features high common mode transient immunity, high isolation voltage, and high-speed response times below 1.2 microseconds. The photocoupler is intended for applications such as computers, power supplies, and industrial equipment where electrical isolation is required.
Catalog đèn báo nút nhấn công tắc IDEC (Nhật Bản) - dòng TWCTY TNHH HẠO PHƯƠNG
Công ty Cổ phần Hạo Phương xin gửi đến quý khách hàng Catalog về đèn báo, nút nhấn, công tắc xoay Idec (Nhật Bản) phi 22 dòng TW. Catalog chứa đầy đủ thông tin về sản phẩm, kích thước và những lưu ý để sử dụng thiết bị hiệu quả.
Điểm đặc biệt của đèn báo IDEC phi 22 là có thể dễ dàng chuyển đổi từ phi 22 sang phi 25, điều mà hiếm có sản phẩm nào trên thị trường có thể làm được.
The FOD3150 is a high noise immunity, 1.0A output current gate drive optocoupler capable of driving IGBTs and power MOSFETs. It has a propagation delay of 500ns max and provides isolation of 5000VRMS. Key features include high common mode rejection ratio, wide supply voltage range of 15-30V, and an operating temperature range of -40°C to 100°C. It is well suited for applications such as industrial inverters, UPS systems, induction heating, and isolated gate drives.
Electrical test equipment for high and low voltage systems. Phasing rods, ammeter for overhead powerlines on
systems up to 36kV. Hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264
The document provides information on Susol air circuit breakers, including:
- Susol ACBs meet demands for high breaking capacity, fully lined-up panels, and optimized sizes. Accessories allow for user-friendly handling.
- Susol ACBs provide total solutions with advanced trip relays for measurement, diagnosis, analysis and communication, as well as protective functions.
- The document describes technical specifications, components, order information, and accessories of Susol ACBs.
This document provides information on the UC3844, UC3845, UC2844, and UC2845 high performance current mode controllers, including:
- Operating temperature ranges and packaging for the devices.
- Pin connections and ordering information for the different package types.
- Electrical characteristics like reference voltage, oscillator frequency, error amplifier performance, current sense input, output specifications, and undervoltage lockout thresholds.
- Graphs depicting properties like oscillator frequency vs timing resistor, output deadtime vs frequency, error amplifier gain and phase vs frequency, and more.
- An overview of key features like current mode operation, adjustable output deadtime, compensation, current limiting, undervoltage lockout,
Original IGBT Transistor GT60N322 60N322 N322 322 57A 1000V TO-3P New ToshibaAUTHELECTRONIC
This document provides specifications for the TOSHIBA Insulated Gate Bipolar Transistor Silicon N Channel IGBT GT60N322. Key details include:
- It is an enhancement mode IGBT with high speed (turn-off time of 0.11 μs) and low saturation voltage (2.4 V typical at 60 A collector current).
- It has a maximum collector-emitter voltage of 1000 V, collector current of 57 A continuous and 120 A pulsed. Junction temperature can reach 150°C.
- Electrical characteristics are provided including input capacitance, rise/fall times, switching times, forward voltage, and reverse recovery time.
- Thermal and safe operating characteristics
Fuji thiet bi dien-acbbt3fuji-160413041525 dienhathe.orgDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The Megger® DET2/3 automatic earth (ground) test instrument is
robust, compact and designed to measure earth Electrode Resistance
and Soil Resistivity. It provides a full range of test methods and excels
at the four terminal method of measurement, which eliminates the
resistance of the current circuit from the measurement.
The DET2/3 is a reliable instrument for use on large or more complex
earth systems, which include communications earth systems and
difficult test environments. It can be used to test in accordance with
BS 7430 (earthing / grounding), BS-EN-62305 (Lightning Protection),
IEEE Standard 81 and Railway Applications.
Soil Resistivity measurements are used to establish the optimum
electrode design
This document provides information about electrical test equipment from Seaward Group, including:
- Low voltage and high voltage test tools for electrical installations from distribution cables to plug sockets.
- Multi-function and single-function installation testers, high voltage indicators, proving units, and accessories.
- Details on specific products like the PowerTest 1557 multi-function installation tester, IRT 1557 insulation and continuity tester, ERT 1557 earth resistance tester, and PowerCheck 1557 verification unit.
- Seaward offers over 70 years of experience in electrical test instrumentation and provides a complete testing and measurement solution with service, calibration, and support.
The document discusses a high-end multi-functional electronic load called the Load Station Series (300W/1000W). It has several key features:
1) It can precisely set current waveforms on a color LCD and has dynamic, sequence, and sweep modes for testing.
2) It has a high-speed current control technology that eliminates overshoot and delivers a smooth current transition.
3) Unlike conventional loads, it acts as a resistive load from 0V so there is no delay between current and voltage, allowing it to test low-voltage devices.
4) It has options like a ripple and noise measurement module, can be remotely controlled, and its units can be connected in
This document summarizes the features of the KG Load Station Series 300W/1000W electronic loads. It has a revolutionary UI like an oscilloscope for easy operation. It realizes less 35% weight than previous models. It can operate just like a resistor with no minimum voltage requirement. It has high speed current control and 4 models from 300W to 1000W in 125V and 500V ranges.
The document discusses a high-end multi-functional electronic load called the Load Station Series (300W/1000W). It has several key features:
1) It can precisely set current waveforms on a color LCD and has a revolutionary oscilloscope-like user interface for ease of operation.
2) It has high-speed current control technology that eliminates overshoot and delivers an ideal current shape.
3) It offers flexible operation modes including constant current, constant resistance, constant power, constant voltage, external control, and sequence mode. Accessories like a ripple and noise measurement module are also available.
4) The lightweight and compact design incorporates a large LCD, memory functions, multi-
This document provides instructions for installing and wiring a DVP-PLC programmable logic controller. It describes the components of the PLC including status indicators, I/O ports, and expansion ports. Wiring diagrams are provided for connecting the main processing unit, digital I/O expansion units, and power supply modules. Guidelines are given for mounting the PLC enclosure and routing wires. Technical specifications are listed for input/output points, memory, communication ports, operating conditions, and power requirements.
MIT400/2 CAT IV Insulation testers
■ Designed for Electrical and Industrial testing
■ Insulation testing up to 1000 V and 200 GΩ
range
■ Stabilised insulation test voltage (New)
■ Single range, faster continuity testing from
0.01 Ω to 1 MΩ (New)
■ Adjustable insulation test voltage from 100V
to 1000V (New)
■ 600 V Trms AC and DC voltage measurement
■ Test result storage and Bluetooth®
downloading
■ Live circuit detection and protection
■ Rechargeable options for mains and car
charging (New)
■ CAT IV 600 V and IP54
The Fluke 1621 is a basic earth ground tester that features 3-pole Fall-of-Potential and 2-pole ground resistance testing methods. It has a convenient size, rugged holster, and large LCD display that make it suitable for use in various work environments. The tester offers simple operation and intuitive functionality for electrical contractors, utility engineers, and ground specialists to efficiently measure and record ground values.
Data Teknis Gossen Metrawatt Multimeter : METRAHIT ISO & METRAHIT COILPT. Siwali Swantika
Pemesanan produk, hubungi PT Siwali Swantika melalui WhatsApp, Jakarta : 0811-1519-949 (chat only) | Surabaya : 0811-1519-948 (chat only). Kunjungi website kami di www.siwali.com, untuk detail informasi spesifikasi dan model alat.
This document is an owner's manual for the DT830 Series 3 1/2 Digital Multimeter. It provides specifications for the multimeter's functions including DC voltage, AC voltage, DC current, resistance, temperature, transistor testing, diode testing, continuity testing, and battery testing. It also describes the multimeter's controls and display, safety information, and instructions for taking measurements and replacing batteries.
The EarthSense insulation monitor provides constant monitoring of insulation resistance in unearthed IT systems, such as those used in railway, industrial, marine, and power applications. It serves as an early warning system by alerting users when impedance between active conductors and earth drops below set values, allowing timely service before equipment failures occur. The monitor has features like an LCD display, Modbus communication, remote monitoring and testing capabilities, and scheduled self-tests.
The One Series Safety Transmitter is a transmitter-switch for monitoring pressure or temperature and meets the requirements of SIL 2 for random integrity at HFT = 0, SIL 3 for random integrity at HFT = 1 and SIL 3 for systematic capability. The One Series Safety Transmitter incorporates UE’s patented IAW self diagnostics, redundant and diverse signal processing and software algorithms to detect abnormalities in the process and internal faults. The design is based on a powerful microprocessor that provides an extremely fast response time for emergency shutdown situations.
Inspect solar panel bypass diodes for opens and shorts in broad daylight without covering panels
INSPECT SOLAR PANEL BYPASS DIODES FOR OPENS AND SHORTS IN BROAD DAYLIGHT WITHOUT COVERING PANELS
Traditionally, bypass diodes can only be inspected for good working condition at night or when power is not being generated by the solar panels in order to verify that any applied current is guided past the solar cells.
With the FT4310, you can detect for open faults even when the sun is out without covering the panels.
Testing can also be performed at night.
*Testing for short-circuit faults can only be performed during the day.
ECC EST-300 Series Next-Generation Hipot Tester - High Output Rating As Compa...Aimil Ltd
The EST-300 next-generation Hipot tester combines industry-leading compact size with Unbeatable performance. This new series economically integrates AC, DC withstand, and
Insulation resistance into a single solution. The Hipot tester is highly portable and fits readily in any spatially limited testing environment. The EST-300 series provides a robust set of features. That includes high output rating, ARC detection, ramp-high, charge-low, and fast discharge to enhance overall testing efficiency and safety by preventing the common errors and detecting any dielectric breakdowns during tests on the DUT. This Product Originates from Extech Electronics Co., Taiwan and Aimil Ltd. is their major distributors and suppliers in India.
The TriRaptor is the only really portable three-phase injector in the market providing stabilized current in the range of 3000 A and beyond. It has been designed with the same ergonomics and performance characteristics found in the popular Raptor System, so it is really easy to use and can be transported by a single person in a regular vehicle.
The 50A20 analog servo drive is designed to drive DC motors with peak currents of 50A and continuous currents of 25A. It has adjustable current limits and loop gains, multiple operating modes, and safety features like overcurrent protection. It is compliant with various safety standards and can be used for industrial applications.
The 25A20 analog servo drive is designed to drive brush DC motors with peak currents of 25A and continuous currents of 12.5A. It can operate in various modes including current, velocity, and voltage control. The drive features adjustable current limits, gains, and offsets via potentiometers and dip switches. It provides status indicators and fault protection. The drive is compliant with relevant safety standards including UL, CE, and RoHS.
One Series Safety Transmitter - Pressure and Temperature Transmitter-SwitchMiller Energy, Inc.
The One Series Safety Transmitter simplifies installation, improves productivity, and eliminates nuisance trips. Sensor diagnostics with redundant data processing detect open, shorted, and plugged sensing elements.
The document describes an analog servo drive that can drive brush DC motors. It provides peak currents of 30A and continuous currents of 15A. It operates from a 30-125VAC supply and has adjustable current limits, input gain, and offset. It supports feedback from tachometers and position sensors and can operate in different modes like current and velocity control. It has protections against overcurrent, overvoltage, and short circuits.
Similar to Kikusui tos9300 Electrical Safety Multi-analyzer denkei (20)
Multi-channel low noise arbitrary waveform generation system
Multi-channel precision low noise DC voltage source
Multi-channel low noise amplification system
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
Ono sokki ds3000 Data Station DS-3000 series Sound and Vibration Real-time...NIHON DENKEI SINGAPORE
1. The DS-3000 Series can perform real-time analysis of noise and vibration generated from various industrial products. It features high-speed processing hardware and easy-to-use software.
2. Real-time octave analysis breaks sounds down into frequency bands similar to human hearing, allowing analysis of noise levels over time. FFT analysis separates waveforms into frequency components.
3. Tracking analysis is useful for analyzing rotational machines like engines. It detects resonance between rotational speed and natural frequencies that could cause problems.
This document provides information on various data loggers including the LR8450, LR8450-01, LR8410-20, LR8431-20, and 8423. It compares their key specifications such as number of channels, maximum sampling interval, input types, and wireless communication capabilities. Application examples are also provided for combining the data loggers with other Hioki instruments to measure values like temperature, resistance, current, voltage, power, and strain.
The document discusses Hioki's lineup of current sensors and current probes for various current measurement applications. It provides details on their specifications and suitability for different use cases, such as evaluating power devices, automotive systems, power quality maintenance, power consumption assessment, and more. The sensors and probes are optimized for measuring currents ranging from miniscule to large magnitudes, operating at frequencies from DC to the GHz range. Models are designed for high-accuracy measurement, waveform observation, and grid power quality control across industries including automotive, renewable energy, and electronics.
This document provides an overview of Hioki's field measuring instruments and their applications in various industrial settings. It introduces Hioki as a leader in test and measuring instruments, with integrated R&D and manufacturing allowing for sustainable product innovation. Various Hioki instruments are then mapped to common applications in factories, including measuring motor insulation, supply voltage, load current, grounding, temperature, and more. Similar mappings are provided for applications in data centers and PV systems.
The document provides an overview of various electrical measuring instruments and testing equipment offered by Hioki, including:
- Battery testers for measuring the internal resistance and open-circuit voltage of batteries used in applications like electric vehicles, power tools, smartphones, and more.
- Motor measurement solutions for performance analysis and quality testing, including power analyzers, clamp sensors, and data loggers.
- Equipment for designing, developing, and testing motors and inverters, such as power analyzers for evaluating efficiency, temperature sensors, and insulation testers.
- Production testing devices like winding testers, breakdown voltage testers, resistance meters, and LCR meters.
- Additional product categories like data loggers, safety test
The DIFFERENTIAL PROBE 9322 provides 3 measurement functions with a single probe: 1) floating measurement of high voltage waveforms up to 1000V AC/DC, 2) detection of surge noise on power supply lines, and 3) true RMS rectified output of high voltage AC. It can be powered by an AC adapter or Hioki’s Probe Power Unit and measures signals up to 2000V DC or 1000V AC with a 1/1000 output.
The document describes the features and capabilities of the Hioki PW8001 power analyzer. It can measure up to 8 power channels with the highest accuracy from DC to high frequencies. It accurately captures power fluctuations from high-speed switching converters. It also provides full compatibility with various current sensors and can automatically perform phase correction for accurate measurement of high-frequency, low power factor power.
PBZ Series Intelligent Bi-Polar Power Supplies
The PBZ series is a bipolar type DC regulated power source that can continuously change both + and – polarities passing through 0 without changing the output terminal.
By adopting a “Switching + Linear” system, the PBZ is able to realize both drastic weight reduction as well as high speed and low noise operation. Since operation covers 4 quadrants, power can be both supplied (source) and absorbed (sink). The PBZ can also drive inductive or capacitive loads. The unit also equips a signal generator function which enables waveform and sequence creation. The PBZ is also capable of synchronized operation which is required for voltage variation tests, and it can also be expanded for large current applications through master-slave parallel operation.
This document provides information on various measurement solutions for the automotive industry, including:
1) Systems for measuring engine-related parameters like combustion chamber volume, analyzing engine noise and vibrations, and inspecting transmission components.
2) Solutions for testing vehicle bodies, including analyzing vibration modes and locating sound sources.
3) Methods for evaluating interior comfort, such as measuring sound absorption and performing psychoacoustic assessments.
4) A system for testing muffler acoustic performance.
The document also provides information on related products like multi-channel analyzers, sensors, and anechoic chambers.
DP800 series includes single output, two output and three output programmable linear DC power supply. They have pure output, excellent performance indicators, multiple analysis functions, rich interfaces, and can meet the diverse testing needs.
This document lists specifications for 7 load cell models - the RZ-1 through RZ-100. Each model is designed to measure different maximum force ranges from 1kg to 100kg with varying minimum increments between 0.1g and 10g. The document also provides model numbers, maximum ratings, and force ranges for each load cell.
The TD-9000T is a digital indicator for load management that supports two inputs, load (load cell) and stroke (displacement gauge).
High-speed A/D conversion of 25,000 times/sec and equipped with a 4.3-inch touchscreen monitor in DIN1/4 (92 x 92) size. While being high-end, it is a high-performance model that realizes a low price.
Waveforms during measurement can be checked in real time. Widely usable from daily monitoring to verification of processing data.
Your One-Stop Shop for Python Success: Top 10 US Python Development Providersakankshawande
Simplify your search for a reliable Python development partner! This list presents the top 10 trusted US providers offering comprehensive Python development services, ensuring your project's success from conception to completion.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/building-and-scaling-ai-applications-with-the-nx-ai-manager-a-presentation-from-network-optix/
Robin van Emden, Senior Director of Data Science at Network Optix, presents the “Building and Scaling AI Applications with the Nx AI Manager,” tutorial at the May 2024 Embedded Vision Summit.
In this presentation, van Emden covers the basics of scaling edge AI solutions using the Nx tool kit. He emphasizes the process of developing AI models and deploying them globally. He also showcases the conversion of AI models and the creation of effective edge AI pipelines, with a focus on pre-processing, model conversion, selecting the appropriate inference engine for the target hardware and post-processing.
van Emden shows how Nx can simplify the developer’s life and facilitate a rapid transition from concept to production-ready applications.He provides valuable insights into developing scalable and efficient edge AI solutions, with a strong focus on practical implementation.
Monitoring and Managing Anomaly Detection on OpenShift.pdfTosin Akinosho
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
Programming Foundation Models with DSPy - Meetup SlidesZilliz
Prompting language models is hard, while programming language models is easy. In this talk, I will discuss the state-of-the-art framework DSPy for programming foundation models with its powerful optimizers and runtime constraint system.
UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
OpenID AuthZEN Interop Read Out - AuthorizationDavid Brossard
During Identiverse 2024 and EIC 2024, members of the OpenID AuthZEN WG got together and demoed their authorization endpoints conforming to the AuthZEN API
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
Cosa hanno in comune un mattoncino Lego e la backdoor XZ?Speck&Tech
ABSTRACT: A prima vista, un mattoncino Lego e la backdoor XZ potrebbero avere in comune il fatto di essere entrambi blocchi di costruzione, o dipendenze di progetti creativi e software. La realtà è che un mattoncino Lego e il caso della backdoor XZ hanno molto di più di tutto ciò in comune.
Partecipate alla presentazione per immergervi in una storia di interoperabilità, standard e formati aperti, per poi discutere del ruolo importante che i contributori hanno in una comunità open source sostenibile.
BIO: Sostenitrice del software libero e dei formati standard e aperti. È stata un membro attivo dei progetti Fedora e openSUSE e ha co-fondato l'Associazione LibreItalia dove è stata coinvolta in diversi eventi, migrazioni e formazione relativi a LibreOffice. In precedenza ha lavorato a migrazioni e corsi di formazione su LibreOffice per diverse amministrazioni pubbliche e privati. Da gennaio 2020 lavora in SUSE come Software Release Engineer per Uyuni e SUSE Manager e quando non segue la sua passione per i computer e per Geeko coltiva la sua curiosità per l'astronomia (da cui deriva il suo nickname deneb_alpha).
1. New Flagship
Electrical Safety Multi-analyzer
TOS9300 Series
All-in-one safety tester model (TOS9303LC)
Insulation diagnosis available with partial discharge model (TOS9301PD ˂Under development˃)
New amplifier type allows for 40 A AC/DC ground bond testing (Ground bond tester models)
Electrical breakdown inspection setting available
AC5 kV/100 mA, DC7.2 kV/100 W Hipot test
Touch current/protective conductor current/leakage current test (TOS9303LC)
LAN/USB/RS232C standard digital interface
Easy to read LCD display for real time monitoring during tests
All measurement values and standard outlines displayed in each test
High voltage scanner capable of output distribution both standalone and when connected with existing
withstanding voltage/insulation resistance testing equipment models [TOS5300 series, etc.] (TOS9320)
Electrical Safety Analyzer
2. 2
TOS9300 Series Lineup
THE ALL-ROUND
Hipot, Insulation Resistance, Ground Bond, Leakage or Partial
Discharge, this analyzer covers it all!
● Test items
Model
AC Withstanding
Voltage (AC Hipot)
DC Withstanding
Voltage (DC Hipot)
Insulation
Resistance
Earth Continuity
(Ground Bond)
Leakage Current Partial Discharge
TOS9300 ● ●
TOS9301 ● ● ●
TOS9301PD ● ● ● ●
TOS9302 ● ●
TOS9303 ● ● ● ●
TOS9303LC ● ● ● ● ●
TOS9320 4 channel high voltage scanner with contact check function; can be used standalone.
A
A
TOS9300 TOS9301 TOS9301PD
TOS9302 TOS9303 TOS9303LC
Approx.17 kg(37.5 lbs)
W
Approx.20 kg(44.1 lbs)
W Approx.21 kg(46.3 lbs)
W Approx.22 kg(48.5 lbs)
W
Approx.18 kg(39.7 lbs)
W Approx.24 kg(52.9 lbs)
W
D 430(16.93")(440(17.32"))W×132(5.2")(155(6.10"))H×
370(14.57")(410(16.14"))Dmm(inch)
D 430(16.93")(440(17.32"))W×132(5.2")(155(6.10"))H×
500(19.69")(540(21.26"))Dmm(inch)
D 430(16.93")(440(17.32"))W×132(5.2")(155(6.10"))H×
500(19.69")(540(21.26"))Dmm(inch)
D 430(16.93")(440(17.32"))W×132(5.2")(155(6.10"))H×
500(19.69")(550(21.65"))Dmm(inch)
D 430(16.93")(440(17.32"))W×132(5.2")(155(6.10"))H×
370(14.57")(410(16.14"))Dmm(inch)
D 430(16.93")(440(17.32"))W×132(5.2")(155(6.10"))H×
500(19.69")(540(21.26"))Dmm(inch)
5 kV/100 mA(500 VA)
ACW
5 kV/20 mA, 7.2 kV/13.9 mA(100 W)
DCW
0.001MΩto100.0GΩ(DC-25Vto-1000V/DC+50Vto+7200V)
IR
Rise Time Fall Time
5 kV/100 mA(500 VA)
ACW
0.001MΩto100.0GΩ(DC-25Vto-1000V/DC+50Vto+7200V)
IR
PD
Timer
LAN USB RS232C
Rise Time Fall Time
Timer
LAN USB RS232C
5 kV/100 mA(500 VA)
ACW
0.001 Ω to 0.600 Ω (3.0 A to 42.0 A)
EC
Rise Time Fall Time
Timer
LAN USB RS232C
Rise Time Fall Time
Timer
LAN USB RS232C
AC Hipot Tester with
Insulation Resistance Test
AC/DC Hipot Tester with
Insulation Resistance Test
AC/DC Hipot Tester with Insulation
Resistance and Partial Discharge Test
AC Hipot Tester with Ground Bond Test AC/DC Hipot Tester with Insulation
Resistance and Ground Bond Test
AC/DC Hipot Tester with Insulation Resistance,
Ground Bond, and Leakage Current Test
Under
development
5 kV/100 mA(500 VA)
ACW
Rise Time Fall Time
Timer
LAN USB RS232C
0.001 MΩ to 100.0 GΩ (DC-25 V to -1000 V)
IR 5 kV/20 mA, 7.2 kV/13.9 mA(100 W)
DCW
5 kV/100 mA(500 VA)
ACW
0.001MΩto100.0GΩ(DC-25Vto-1000V/DC+50Vto+7200V)
IR
0.001 Ω to 0.600 Ω (3.0 A to 42.0 A)
EC
1 µA to 100 mA(rms)
LC
5 kV/20 mA, 7.2k V/13.9 mA(100 W)
DCW
5 kV/100 mA(500 VA)
ACW
0.001MΩto100.0GΩ(DC-25Vto-1000V/DC+50Vto+7200V)
IR
Rise Time Fall Time
Timer
LAN USB RS232C
0.001 Ω to 0.600 Ω (3.0 A to 42.0 A)
EC
5 kV/20 mA, 7.2 kV/13.9 mA(100 W)
DCW
Under
development
3. Option/Other
Features
Applications
Exterior Design
Specifications
Dimensions
P4-P7
P8-9
P10-11
P12-P24
P25
P26-P27
3
Option
DER
Approx.8 kg(17.6 lbs)
W
D 430(16.93")(440(17.32"))W×88(3.46")(105(4.13"))H×
370(14.57")(390(15.35"))Dmm(inch)
Electrical Safety Multi-analyzer
TOS9300 Series
TOS9320
High voltage scanner for TOS9300 series
multi-channel testing systems
Remote Control Box
High voltage test probe
Test probe for touch current test
Warning Light Unit
Multi Outlet
DIN conversion cable
Rack Mount Bracket
The Electrical Appliance & Material Safety Low (Japan), UL (U.S.A.), CSA (Canada), VDE (Germany) and BS (U.K) are some major examples of safety standards in use throughout the world that require the
perform-ing of hipot testing. For this reason, it is necessary to confirm for what portion of what standard testing is to be performed when purchasing a hipot tester. Although the 500 VA capacity hipot testers available
from KIKUSUI can basically be applied to tests specified in all safety stand-ards, we recommend that you consult with us prior to purchase in order to select the model that best matches your specific application.
For the withstanding test and the insulation resistance test of the EUT (Equipment Under Test) with turned on electricity.
Our Hipot Testers and Insulation Resistance Testers are designed to test the EUT (Equipment Under Test) with turned off electricity. In case the test requires the EUT (Equipment Under
Test) with turned on electricity, please contact with our distributor or agent.
High-voltage Scanner
The TOS9300 series is a high performance electrical safety analyzer that complies to a wide range of universal standards. Hipot, Insulation Resistance, Ground
Bond, Leakage Current (touch current and protective conductor current) and partial discharge can all be tested. A total of 6 models are available for standard
compliance tests in a wide variety of applications including R&D, quality assurance manufacturing lines and laboratory tests.
● All-in-one safety tester model (TOS9303LC)
● Insulation diagnosis available with partial discharge model (TOS9301PD [Under development])
● New amplifier type allows for 40A AC/DC ground bond testing (Ground bond tester models)
● Electrical breakdown inspection setting available
● AC5 kV/100 mA, DC7.2 kV/100 W Hipot test
● Touch current/protective conductor current/leakage current testing (TOS9303LC)
● LAN/USB/RS232C standard digital interface
● Easy to read LCD display for real time monitoring during tests,
All measurement values and standard outlines displayed in each test
● High voltage scanner capable of output distribution both standalone and when connected with existing
withstanding voltage/insulation resistance testing equipment models [TOS5300 series, etc.] (TOS9320)
Others
Rise Time
Equipped with rise time control function
Fall Time
Equipped with fall time control function
Dimensions(maximum)
D
Weight
W
ACW Max. output-voltage of AC hipot testing
IR Measurement range of insulation resistance testing
DCW Max. output-voltage of DC hipot testing
EC Measurement range of ground bond testing
LC Measurement range of leakage current testing
PD Measurement range of partial discharge testing
Equipped with USB interface as standard
USB
Equipped with RS232C interface as standard
RS232C
Equipped with LAN interface as standard
LAN Equipped with timer function
Timer
4. 4
A brand-new 7-inch LCD display allows for easy access to your custom
settings, standard outlines and blueprints for easy operation.
(See Exterior Design P10/Display P11)
Color LCD Screen for Improved Visibility!
User-Friendly 10Key Configuration
The TOS9300 series has included a user-friendly keypad in addition to
the basic rotary knob for easy setting configuration. The front panel USB
interface also allows for direct control via keyboard*.
*106/109 Japanese keyboards and 101/104 English keyboard compliant.
STATUS OUT Connector
Signals from the rear panel STATUS connector automatically activate the
optional warning light (PL02-TOS) during high voltage output or unsafe test
conditions.
SIGNAL I/O Connector
Pin no. IN/OUT Signal name Description
1 IN INTERLOCK+ Activate/release interlock.
2 ― COM Circuit common (chassis potential) shared by input and output.
3 IN PM0
Select setup memories and auto test program memories.
4 IN PM1
5 IN PM2
6 IN PM3
7 IN PM4
8 IN PM5
9 IN PM6
10 IN PM7
11 IN STB
Recall setup memories and programs selected with the
PM0 to PM7 signals.
12 ― Reserved
Not used.
13 ― Reserved
14 ― Reserved
15 IN START Start a test.
16 IN STOP Stop a test.
17 IN ENABLE Enable the START signal.
18 ― COM I/O circuit common (chassis potential).
19 IN INTERLOCK- Activate/release interlock.
20 ― COM I/O circuit common (chassis potential).
21 ― +24V
+24 V internal power supply output terminal.
Maximum output current 100 mA.
22 OUT H.V ON/LINE ON
Set to on in any of the following conditions. Testing. Auto testing.
Voltage remaining across the output terminals. Power being
supplied to the EUT from the TOS9303LC through AC LINE OUT.
23 OUT RISE Set to on when the voltage is rising.
24 OUT TEST Set to on during test time.
25 OUT PASS
Set to on for the duration of time specified by Pass Hold
when a PASS judgment is made.
26 OUT U FAIL
Set to on continuously when a U-FAIL judgment is made. Or set
to on continuously along with the L FAIL signal when CONTACT
FAIL judgment is made when a scanner is connected.
27 OUT L FAIL
Set to on continuously when an L-FAIL judgment is made. Or set
to on continuously along with the U FAIL signal when CONTACT
FAIL judgment is made when a scanner is connected.
28 ― Reserved Not used.
29 OUT READY Set to on when the product is ready to start a test.
30 OUT PROTECTION Set to on when a protection function is activated.
31 OUT STEP END Set to on when each step ends during an auto test.
32 OUT CYCLE END Set to on when the last step ends during an auto test.
33 OUT ACW Set to on when the test mode is set to AC withstanding voltage test.
34 OUT DCW Set to on when the test mode is set to DC withstanding voltage test.
35 OUT IR Set to on when the test mode is set to insulation resistance test.
36 OUT EC Set to on when the test mode is set to earth continuity test.
37 OUT LC
Set to on when the test mode is set to touch current test or
protective conductor test.
19
20
1
37
SIGNAL I/O connector pin number
TOS9300 example (The SIGNAL I/O connector is the same on all models.)
The rear panel also has a SIGNAL I/O that can start/stop operation as well
as output signals.
[Recommended browser]
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●Requires for the firefox 8.0 or later
●Requires for the safari / mobile Safari 5.1 or later
●Requires for the Chrome 15.0 or later
●Requires for the Opera 11.0 or later
LAN/USB/RS232C Standard Digital Interface
LXI compatible LAN, USB 2.0, USB-TMC compatible USB, and RS232C as
standard digital interface.
▲Rear panel•Interface(All models)
►
Use a browser from a PC, smartphone, or tablet
to access the web server built into the TOS9300
series for convenient control and monitoring.
* Connecting with a smartphone,
tablet, etc. requires a Wi-Fi
environment (wireless LAN
router etc.).
Features
Can connect with an oscilloscope
using a BNC cable.
*There is no BNC cable option
available. Users need to acquire
a BNC cable themselves.
Oscilloscope
TOS9300 Series Rear panel
I/V Monitor Terminal (Analog Monitor)
Signal outputs on the rear panel I/V terminal allow the user to monitor
current/voltage waveforms during hipot tests with only an oscilloscope.
Current sensors and high voltage probes not required.
Easy Firmware Updates via USB
System firmware can easily be updated via USB memory with update files
directly accessible from our website. (https://www.kikusui.co.jp/en/download/)
Easy
updates
5. 5
Contact/Protective Conductor/
Patient Leakage Current Test (TOS9303LC)
The TOS9300 series can conduct leakage current (patient current) tests
for highly sensitive medical devices. Measurement networks can be easily
configured via the front panel. (See Applications P8, Specifications P19)
Automatic Testing Feature
Tests can be combined and configured to execute automatically over long
periods of time. Automotic tests are composed of programs and steps, which
can be configured to initiate one after another.
All Electrical Safety Standard Tests in
One Device! (TOS9303LC)
The TOS9303LC is the "all-rounder" model which supports AC/DC
withstanding voltage, insulation resistance, AC/DC earth continuity and
leakage currents tests in a single device. It can also be used for contact
current, protective conductor current and patient leakage current tests.
▲TOS9303LC
Maximum number
of programs
Maximum number
of steps *1
Executed under
external control
Changing the
program name
Program memory
(except LC tests)
100 100 – ü
Program memory
(LC tests only) *2
100 100 – ü
Maximum number
of programs
Maximum number
of steps *1
Executed under
external control
Changing the
program name
External control
program memory
(except LC tests)
25 100 ü –
External control
Program memory
(LC tests only) *2
24 100 ü –
*1 Per program *2 TOS9303LC only
AC Hipot Testing with Stable Output
[Input Voltage Variation: ±0.3%]
Conventional hipot testers utilize a slide transformer to output AC line
voltage. This design is susceptible to input voltage fluctuation, with outside
electrical influence affecting the test results. This can result in distorted
voltage being applied to the EUT which can cause product malfunctions
down the line due to component malfunction. The TOS9300 series utilizes a
highly efficient PWM amplifier capable of stable high-voltage output that is
unaffected by changes in the AC power line. The TOS9300 series allows for
safe, stable, and highly reliable tests regardless of AC power line instability.
The TOS9300 is equipped with a highly accurate, high resolution RMS
measurement circuit with a voltmeter of ± (1.2% of reading +5 V)/minimum
resolution 0.1 V and an ammeter of ± (1% of reading +2 μA)/ minimum
resolution 1 μA. The series also supports an auto range function, ensuring
similar accuracy in both the upper and lower limit measurements that can
accurately detect connection problems in the test lead. This combined with
a measurement speed of 0.1s allows for reliable testing with high accuracy
and resolution.
Input waveform on
primary (input) side
Outputs a stable
high voltage!
TOS9300 Series
Input voltage
variation
Input voltage
distortion
Slide transformer system PWM amplifier system
Universal Input Support
● Global Support
TOS9300 Series supports universal input
for varying input voltages around the world.
● Programmable Output Frequency
Stable output frequency not dependent
on input power source. Testing voltage is
supplied at a stable 50/60Hz frequency.
High Precision/High Resolution/High Speed
All in One!
Step 1 Step 2
Program
ACW test DCW test IR test
Step 3
●Program schematic
5 kV/100 mA(500 VA)
ACW
0.001 MΩ to 100.0 GΩ (DC-25 V to -1000 V/DC+50 V to +7200 V)
IR
0.001 Ω to 0.600 Ω (3.0 A to 42.0 A)
EC
1 µA to 100 mA(rms)
LC
5 kV/20 mA, 7.2 kV/13.9 mA(100 W)
DCW
6. 6
Electric Discharge Function
A discharge feature enables discharge of electrical energy from the DUT
after DC hipot and insulation resistance tests have completed. The setting
range for discharge time is between 0.0s - 100.0s.
AC/DC Earth Continuity Testing up to 40 A
Cutting edge amp technology allows for a wide range of applications,
including general AC earth conduction testing and EV/PHV system DC earth
continuity testing. This also allows for strict adherence to automotive DC
standard requirements; expected to increase in the near future.
EARTH FAULT Protection
Mistakenly changing the grounding (GND) setting to "guard" (floating) can
result in grounding the test subject which can result in unwanted leakage
current emissions from the high voltage output site into the grounding site,
resulting in electric shock to the operator. The EARTH FAULT protection
function blocks output and terminates the test; eliminating any risk of electric
shock and maximizing safety for the operator.
Offset Cancel
The Offset Cancel feature allows the user to eliminate electrical current
found in the insulation resistance and stray capacitance among the output
cables (only resistance for DC testing). This feature is available in all testing
modes for AC withstanding voltage, DC withstanding voltage, insulation
resistance, earth continuity and electrical current leakage tests.
7.2 kV/100 W DC Hipot Test
Capable of performing DC Hipot tests up to 7.2 kV utilizing a stable DC/DC
converter with low-ripple and load variation of 1% and below.
Positive Electrode/Negative Electrode Insulation
Resistance Testing
Testing voltage from -25 V to -1000 V, +50 V to +7200 V, with a setting
resolution is 1 V. Insulation resistance can be tested up to 99.99 GΩ.
This makes for easy IEC61730-2 standard PV (solar battery) module
insulation resistance testing. (See Application P9)
Value Description
LPF
Slow
Mean-value response type current detector. This is similar to the current
detection response of Kikusui's general-purpose AC withstanding voltage
testers. This setting is suitable for detecting dielectric breakdown defined
in safety standards and for general hipot tests for general electronic
devices and components. This setting is not recommended for detecting
corona discharge, which is not considered dielectric breakdown by typical
safety standards.
Medium Mean-value response type faster than SLOW setting. Upper limit
judgement detection is much faster, suitable for withstanding voltage
tests on compact electronic components and other EUTs prone to
dielectric breakdown. Instantaneous discharges such as corona
discharges with high frequencies are detected which may not be suitable
for simple withstanding voltage tests.
Fast
HPF
Slow Extremely small discharges such as corona discharges are detected but
with low reproductibility.
Fast
Conventional withstanding voltage testers are generally used to only detect
insulation breakdown, and cannot make judgements on instantaneous
discharge currents like partial discharge. However, the TOS9300 series is
equipped with 5 levels of response speed settings to accurately detect low
levels of insulation breakdown. Small discharges not visible to conventional
withstanding voltage testers are easily detected with the TOS9300 series.
Programmable Detection Response Speed
Features
7. 7
Rise Time/Fall Time Control Function
The rise time control function prevents unnecessary stress from being
applied to the EUT.
Basic Memory Function
In addition to automatic testing memory functions, up to 51 basic setting
conditions and testing modes can be selected and saved to the main unit or
USB memory. Easy testing with no hassle!
Calibration Deadline Notification
A real-time clock IC has been equipped to ensure that the instrument is
traceable via regular calibration. The device will automatically generate
warning notifications when the calibration deadline is exceeded.
"sda1" is the folder
displayed when USB
memory is inserted.
Testing conditions
can be saved in
00-50 of "setups".
(Total 51)
● Output can be expanded to four channels with one high-voltage
scanner. The electric potential of each channel can be arbitrarily
set to high, low, or open, and can be tested at any of these four
points.
● Up to four high voltage scanners (total 16 channels) can be
connected to each unit.
● Output of each channel and contact with testing points can be
easily monitored.
The TOS9320 high voltage scanner allows for rapid distribution of testing
voltage from the main unit to multiple testing points for withstanding voltange
and insulation resistance testing. Channels can be controlled via an external
device through the rear panel CONTROLLER INTERFACE connector. The
scanner can also be used standalone or with an external control device
for other Kikusui withstanding voltage and insulation resistance testing
instruments. Hipot tests for electronic devices with multiple testing points
have never been easier. (See Application P9)
[High-voltage scanner TOS9320]
Multi-Channel Testing System (Option)
▲Front panel
▲Rear panel
Test point A
Test point B
Test point C
Test point D
CH1 X terminal
OUT HIGH VOLTAGE terminal
IN connector
OUT connector
OUT LOW terminal
IN HIGH VOLTAGE terminal
HIGH VOLTAGEterminal
IN LOW termina
CH1 Y terminal
RL 1x
RL 1y
CH2 X terminal
CH2 Y terminal
RL 2x
RL 2y
CH3 X terminal
CH3 Y terminal
RL 3x
RL 3y
CH4 X terminal
CH4 Y terminal
RL 4x
RL 4y
Control circuit
EUT
TOS9320 scanner
TOS93 series tester
LOW terminal
SCANNER connector
[4 channel test system]
● Rise Time control function
● Fall time control function
The rise time control feature
allows you to gradually increase
voltage to a set value while AC/
DC hipot tests are conducted.
Voltage rise times can be
set from 0.1s to 200.0s at a
resolution of 0.1s.
The fall time control feature
a l l o w s y o u t o g r a d u a l l y
decrease the test voltage after
a successful AC/DC hipot test.
The voltage fall time can be set
from 0s to 200s at a resolution
of 0.1s. (OFF is also selectable).
8. ▲TOS9303LC
Setting test
conditions
Measurement circuit network (network I IEC60601-1)
8
Leakage Current Test
Electrical safety standard testing for automotive components
Compatible with both AC and DC, the TOS9303LC complies with a wide
varety of safety tests for EV batteries, automotive charging devices and
charging connectors. This "all-in-one" safety analyzer can meet the needs
of nearly all automotive electrical safety standards.
ACW DCW IR EC LC
All in One!
▲TOS9303LC
Residential Charge
Quick Charge
▲EV internal overview
Low voltage
battery
EV charging
system
ECU
High voltage battery
system
AC100V
AC200V
DC400V
●Hipot test
●Insulation resistance test
●Hipot test
●Insulation resistance
test
●Hipot test
●Insulation resistance
test
●Hipot test
●Insulation resistance
test
●Ground bond test
●Leakage current test
Single cell
Module
Pack
Primary - Secondary
Primary - Chassis
Secondary - Chassis
Compatible with medical device leakage current testing (patient current)! (TOS9303LC only)
Easy Test Condition Programmability
Internal measurement circuit networks (I IEC60601-1) enable easily
programmable test conditions.
Power
Insulation transformer
Medical device
L
N
PE
Z1
Z2
Primary
circuit
Secondary
circuits
Patient fitting site
Enclosure
Patient fitting site – Patient leakage current between grounding
*For details on other internally installed measurement circuit networks, see Specifications (P19).
●Test Example
This test measures current flowing from
the point of contact between a medical
instrument and a simulated human body
network to the ground. If the measurement
does not exceed a value deemed harmful
to a human being as defined in international
safety standards, the product is considered
safe and compliant to electric shock
prevention requirements.
What is patient leakage
current testing?
IEC61851-21 etc.
Application
9. 9
PV (solar battery) module withstanding voltage/insulation resistance testing
Multi-channel withstanding voltage/insulation resistance testing
Withstanding voltage tests such as IEC61730-2 and JIS C 8992-2 require testing
voltage to be drastically increased (4 times the maximum system voltage + 2000 V)
and maintained for 1 minute.
Multiple testing points can be simultaneously tested to cut costs and save time!
The TOS9320 high voltage scanner allows for multi channel expansion for the TOS9300
series as well as previous models.
LOW terminal
connected to
frame
HIGH terminal connected to
short circuit output electrode
PV modules
▲TOS9303LC
DCW max.7.2kV*
Easily compatible with
1000 V PV modules as well!
Also fitted with a highly accurate ammeter
●Measurement accuracy:
±(1% of reading + 2 μA)
*TOS9301/TOS9303/TOS9303LC only
1000 V × 4-fold + 2000 V =
[Voltage 1000 V adaptation grade A example]
Test voltage : 6000 V
Electrode
frame
CH1
CH2
CH3
CH4
CH5
CH6
CH7
CH8
CH9
CH10
CH11
CH12
CH13
CH14
CH15
CH16
▲TOS9300 series
* Mount on a rack when using two or more scanners.
[16CH Test system]
Expanded to 4CH
▲TOS5300 series
Previous
model expansion
possible *1
▼TOS9320
*1 Independent control of the scanner is required using EXTERNAL I / O.
10. 10
HIGH
VOLTAGE terminal
Outputs high test
voltage.
LOW
terminal
Outputs low test
voltage (with cable
lock).
●TOS9303LC
HIGH VOLTAGE
terminal
Outputs high test
voltage.
LOW terminal
Outputs low test voltage
(with cable lock).
Exterior Design
Front panel
Rear panel
DANGER LED
Lights red when the power is turned on, when a test is in progress, when a
high voltage is being output, or when there is residual voltage at the output
terminals. On the TOS9303LC, the LED also lights red when supply voltage
is being supplied to the EUT.
USB connector)
Used for external keyboard as well as memory
for settings and test results. Also used for import/
export of programs and firmware updates.
REMOTE connector
For connection of optional remote
control box and test probes.
START switch
Start test.
POWER switch
Turn power on/off.
STOP button
Stops test and
clears current
status. Returns
to Home menu
screen.
Function keys Sub-function keys
Rotary knob
Select item and enter
numbers/characters.
Numeric keypad
For value input.
Menu keys
Switch display.
Withstanding voltage,
insulation resistance
Common for all models.
STATUS OUT connector
Connects optional products.
SCANNER connector
Connect to optional high voltage scanner.
USB port
For remote control.
LAN port
For remote control.
DC OUT 5 V
terminal
Connects optional
products.
RS232C port
For remote control.
SIGNAL I/O connector
I/O signal connector for control
via external signals.
I terminal
Signal output terminal for monitoring current
waveforms for withstanding voltage tests.
V terminal
Signal output terminal
for monitoring voltage
waveforms for withstanding
voltage tests.
AC INPUT inlet
100 V to 120 V/ 200 V to 240 V
●TOS9303LC
Leakage current test
TOS9303LC only.
Eath continuity test
Not available for
TOS9300 and TOS9301.
Leakage current
test
TOS9303LC only.
Withstanding voltage,
insulation resistance
Common for all models.
11. 11
Test status
Test mode
Select test type.
LAN connection status
▲Function Menu
Displays summary of settings for each test. Switch test modes.
▲Home Menu
Set conditions for each test. Execute test.
Test mode
Select test type.
Current menu screen
Press menu key to switch between menus.
▲Program Menu
Configure and execute auto tests.
▲Memory Menu
Use memory function.
▲System Menu
Display and change system settings.
Test condition
setting
●TOS9303LC screen example
Display (Each menu screen)
12. 12
Unless specified otherwise, the specifications are for the following settings and conditions.
• The product is warmed up for at least 30 minutes.
• TYP: These are typical values that are representative of situations where the product operates in an environment
with an ambient temperature of 23 °C. These values do not guarantee the performance of this product.
• setting: Indicates a setting. • range: Indicates the rated value of each range. • reading: Indicates a readout value.
• The various tests are abbreviated as follows: ACW: AC withstanding voltage, DCW: DC withstanding voltage,
IR: insulation resistance, EC: earth continuity, LC: leakage current, TC: touch current, PCC: protective conductor
current, Patient: patient leakage current, Meter: meter mode
[AC Output function]
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
AC output
section
Output range
0.050 kV to 5.000 kV
Resolution 1 V
Setting accuracy ±(1.2 % of setting + 0.02 kV) (at no load)
Max. rated load *1 500 VA(5 kV / 100 mA)
Max. rated current 100 mA (when the output voltage is 0.2 kV or higher)
Transformer rating 500 VA
Output voltage
waveform *2
Sine
Distortion 2 % or less. (when the output voltage is 0.5 kV or higher and no load or a pure resistive load is connected)
Crest factor √
2 ± 3 % (800 V or more)
Frequency
50 Hz / 60 Hz
Accuracy ±0.1 %
Voltage regulation ±3 % or less (when changing from maximum rated load to no load)
Short-circuit current 200 mA or more (output voltage 0.5 kV or higher)
Output method PWM switching
Start voltage The voltage at the start of the test can be set.
Setting range 1 % to 99 % of the test voltage
Resolution 1 %
Output voltage monitor function If the output voltage exceeds ±(10 % of setting + 0.05 kV), the output is turned off, and the protection function is activated.
[Measurement function]
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
Voltmeter
Measurement range 0.00 kV to 7.50 kV AC/DC
Resolution 0.1 V
Accuracy ±(1.2 % of reading + 5 V)
Response
Can be switched between true rms and mean-value response rms conversion.
Peak-value response in a separate system
(the peak-value response is for measuring the dielectric breakdown voltage while rising)
Hold function The voltage measurement after a test is finished is held while the pass/fail judgment is displayed.
Ammeter
*1 *2
Measurement range AC: 0.00 mA to 110 mA, DC: 0.00 mA to 22 mA (Current including the active component and reactive component)
Accuracy ±(1 % of reading + 2 μA) (active component)
Response Can be switched between true rms and mean-value response rms conversion.
Hold function The current measurement after a test is finished is held while the pass judgment is displayed.
Offset cancel function
Cancels up to 10 mA of the current flowing through the insulation resistance and stray capacitance components across
output cables and the like (resistance component only for DC tests). OFF function available.
Calibration
Active component: Calibrated with the rms of a sine wave using a pure resistive load.
Reactive component: Not calibrated.
*1 During AC voltage tests, current also flows in the stray capacitance of items such as the test leads and tools.
For details on stray capacitance, see “Stray Capacitance of AC Withstanding Voltage Tests”
*2 When the temperature and humidity are high, erroneous current from the product’s internal and external high-voltage wiring sections to ground increases. When the humidity exceeds
70 %, an erroneous current of about 50 μA may be generated.
[DC Output function]
Item TOS9301 TOS9303 TOS9303LC
DC output
section
Output voltage range 0.050 kV to 7.200 kV
Resolution 1 V
Setting accuracy ±(1.2 % of setting + 0.02 kV)
Max. rated load *1 100 W (5 kV/20 mA, 7.2 kV/13.9 mA)
Max. rated current 20 mA
Ripple
7.2 kV no load 20 Vp-p (TYP)
Max. rated load 50 Vp-p (TYP)
Voltage regulation 1 % or less (when changing from maximum rated load to no load)
Short-circuit current 100 mA (TYP) (200 mA peak)
Discharge function Forced discharge after test completion (discharge resistance: 125 kΩ)
Start voltage The voltage at the start of the test can be set.
Setting range 1 % to 99 % of the test voltage
Resolution 1 %
Output voltage monitor function If the output voltage exceeds ±(10 % of setting + 0.05 kV), the output is turned off, and the protection function is activated.
*1 When tests are performed consecutively, output time limit and rest time may become necessary depending on the upper limit setting
*2 If an AC voltage is applied to a capacitive load, the output voltage may rise higher than at no load depending on the load capacitance. Further, waveform distortions may occur if an
EUT whose capacitance is dependent on voltage (for example, an EUT that consists of ceramic capacitors) is connected as the load. However, if the test voltage is 1.5 kV, the effect of
a capacitance of 1 000 pF or less can be ignored. Because the product’s high-voltage power supply uses the PWM switching method, if the test voltage is 500 V or less, the switching
and spike noise proportions are large. The lower the test voltage, the greater the waveform is distorted.
■ Withstanding Voltage Test
Specifications
13. 13
[Judgment function]
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
Current judgment operation
The output is shut off when a judgment is made. Buzzer volume level can be set in the range of 0 (OFF) to 10 for pass and
fail separately. In an auto test, the buzzer is valid only for the judgment that takes place at the end of the program.
UPPER FAIL
Judgment method
UPPER FAIL results when a current greater than or equal to the Upper limit is detected.
For DCW, judgment is not made during the judgment delay (Judge Delay).
Display “U-FAIL” is displayed.
Buzzer On
SIGNAL I/O The U-FAIL signal is generated continuously until a STOP signal is received.
LOWER FAIL
Judgment method
LOWER FAIL results when a current less than or equal to the Lower limit is detected.
Judgment is not made during Voltage rise time or Voltage fall time of an ACW test.
Display “L-FAIL” is displayed.
Buzzer On
SIGNAL I/O The L-FAIL signal is generated continuously until a STOP signal is received.
PASS
Judgment method PASS judgment is made if U-FAIL or L-FAIL has not occurred when the test time elapses.
Display “PASS” is displayed.
Buzzer On (fixed to 50 ms)
SIGNAL I/O
The PASS signal is generated for the length of time specified by the Pass Hold set-ting.
If Pass Hold is set to Infinity, the PASS signal is generated continuously until a STOP signal is received.
Voltage rise rate judgment operation
Monitors the voltage rise rate during Voltage rise time. This is valid when Auto setting of the judgment delay (Delay Auto) is
set to on and the output voltage is 200 V or more. The output is shut off when a judgment is made. Buzzer volume level can
be set in the range of 0 (OFF) to 10 for pass and fail separately.
dV/dt FAIL
Judgment method When the voltage rise rate (dV/dt) is less than approx. 1 V/s.
Display “ä U-FAIL” is displayed.
Buzzer ON
SIGNAL I/O The U FAIL signal is generated continuously until a STOP signal is received.
Upper limit setting range AC: 0.01 mA to 110.00 mA, DC: 0.01 mA to 21.00 mA
Lower limit setting range AC: 0.00 mA to 109.99 mA, DC: 0.00 mA to 20.99 mA, OFF. Setting 0.00 is equivalent to OFF.
Judgment accuracy *1 *2 ±(1 % of setting + 5 μA)
Current detection method
Compares to the reference value using the following method.
Calculate true rms values, convert mean-value responses to rms values
Response speed (filter) switching
Switches the current detection response speed (sensitivity) used in UPPER FAIL judgment between five levels in ACW and
DCW tests.
*1 During AC voltage tests, current also flows in the stray capacitance of items such as the test leads and tools. For details on stray capacitance, see “Stray Capacitance of AC
Withstanding Voltage Tests”
*2 When the temperature and humidity are high, erroneous current from the product’s internal and external high-voltage wiring sections to ground increases. When the humidity exceeds
70 %, an erroneous current of about 50 μA may be generated.
[Other specifications]
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
Analog monitor *1 Outputs a voltage signal according to the current waveform or voltage waveform
I Current waveform: Scale 50 mA/1 V
V Voltage waveform: Scale 1 kV/1 V
Grounding mode (GND) Can be switched between Low and Guard.
Low
GND is connected to the low terminal. Measures the current flowing across the low terminal and chassis (normal
applications).
Guard *2
GND is connected to Guard. Measures only the current flowing through the low terminal (cur-rent flowing through the
chassis is not measured) (high sensitivity, high accuracy measure-ment applications).
*1 Monitor signal output is isolated from the chassis (earth). If you connect an oscilloscope or an external device whose BNC shield is grounded, be sure to set the grounding mode (GND)
to Guard. The value is not calibrated.
*2 If there is a possibility that the EUT or tools and the like will be grounded or if you are uncertain, do not set GND to Guard. Doing so is extremely dangerous because the ammeter will
be shorted and will not be able to measure current. For normal applications, set GND to Low.
[Timer function]
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
Voltage rise time settings range 0.1 s to 200.0 s
Voltage fall time setting time *1 0.1 s to 200.0 s, OFF
Test time setting range 0.1 s to 1000.0 s, OFF
Judgment delay (Judge Delay) setting range *2 0.1 s to 100.0 s, AUTO *3 (DCW only)
Accuracy ±(100 ppm of setting + 20 ms) (excluding the fall time)
*1 This setting is used only when a PASS judgment occurs in ACW and DCW tests. During a DCW test, the voltage may not drop all the way within the set time because of the electrostatic
capacity inside the product and the EUT.
*2 Less than the sum of the rise time and fall time.
*3 If Delay Auto is set to on, LOWER judgment is not made until the charge time ends.
14. 14
[Measurement function]
Item TOS9300 TOS9301 TOS9303 TOS9303LC
Voltmeter
Measurement range Negative polarity: 0 Vdc to -1200 Vdc, positive polarity: 0 Vdc to 7500 Vdc
Resolution 0.1 V
Accuracy Negative polarity: ±(1 % of reading + 1 V), positive polarity: ±(1.2 % of reading + 1 V)
Resistance
meter
Measurement range 0.001 MΩ to 100.0 GΩ (in the range of maximum rated current of 1 mA to 5 nA)
Accuracy *1 *2
(when GND is
set to Guard)
(i: measured
current)(R:
measurement
resistance)
5 nA ≤ i ≤ 50 nA *3
500.000 MΩ ≤ R < 1.000 GΩ: ±(15 % of reading + 0.5 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(15 % of reading + 5 MΩ)
10.000 GΩ ≤ R ≤ 100.000 GΩ: ±(20 % of reading + 200 MΩ)
50 nA < i ≤ 100 nA *3
200.000 MΩ ≤ R < 1.000 GΩ: ±(10 % of reading + 0.5 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(10 % of reading + 5 MΩ)
10.000 GΩ ≤ R < 50.000 GΩ: ±(10 % of reading + 50 MΩ)
50.000 GΩ ≤ R ≤ 100.000 GΩ ±(20 % of reading + 200 MΩ)
100 nA < i ≤ 200 nA *4
100.000 MΩ ≤ R < 1.000 GΩ: ±(7 % of reading + 0.5 MΩ)
1.000 GΩ ≤ R < 2.000 GΩ: ±(7 % of reading + 5 MΩ)
2.000 GΩ ≤ R < 10.000 GΩ: ±(7 % of reading + 10 MΩ)
10.000 GΩ ≤ R < 50.000 GΩ: ±(7 % of reading + 100 MΩ)
200 nA < i ≤ 1 μA *4
10.000 MΩ≤ R < 100.000 MΩ: ±(5 % of reading + 0.05 MΩ)
100.000 MΩ ≤ R < 1.000 GΩ: ±(5 % of reading + 0.5 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(5 % of reading + 5 MΩ)
10.000 GΩ ≤ R < 25.000 GΩ: ±(5 % of reading + 50 MΩ)
1 μA < i ≤ 1 mA *4
0.001 MΩ ≤ R < 10.000 MΩ: ±(2 % of reading + 0.003 MΩ)
10.000 MΩ ≤ R < 100.000 MΩ: ±(2 % of reading + 0.03 MΩ)
100.000 MΩ ≤ R < 1.000 GΩ: ±(2 % of reading + 0.3 MΩ)
1.000 GΩ ≤ R < 5.000 GΩ: ±(2 % of reading + 3 MΩ)
Accuracy *5
(when GND
is set to Low)
(i: measured
current)(R:
measurement
resistance)
5 nA ≤ i ≤ 50 nA *3
500.000 MΩ≤ R < 1.000 GΩ: ±(25 % of reading + 0.5 MΩ)
1.000 GΩ≤ R < 10.000 GΩ: ±(25 % of reading + 5 MΩ)
10.000 GΩ≤ R ≤ 100.000 GΩ: ±(30 % of reading + 200 MΩ)
50 nA < i ≤ 100 nA *3
200.000 MΩ≤ R < 1.000 GΩ: ±(20 % of reading + 0.5 MΩ)
1.000 GΩ≤ R < 10.000 GΩ: ±(20 % of reading + 5 MΩ)
10.000 GΩ≤ R < 50.000 GΩ: ±(20 % of reading + 50 MΩ)
50.000 GΩ≤ R ≤ 100.000 GΩ: ±(30 % of reading + 200 MΩ)
100 nA < i ≤ 200 nA *4
100.000 MΩ≤ R < 1.000 GΩ: ±(10 % of reading + 0.5 MΩ)
1.000 GΩ≤ R < 2.000 GΩ: ±(10 % of reading + 5 MΩ)
2.000 GΩ≤ R < 10.000 GΩ: ±(10 % of reading + 10 MΩ)
10.000 GΩ≤ R < 50.000 GΩ: ±(10 % of reading + 100 MΩ)
200 nA < i ≤ 1 μA *4
10.000 MΩ≤ R < 100.000 MΩ: ±(5 % of reading + 0.05 MΩ)
100.000 MΩ≤ R < 1.000 GΩ: ±(5 % of reading + 0.5 MΩ)
1.000 GΩ≤ R < 10.000 GΩ: ±(5 % of reading + 5 MΩ)
10.000 GΩ≤ R < 25.000 GΩ: ±(5 % of reading + 50 MΩ)
1 μA < i ≤ 1 mA *3
0.001 MΩ≤ R < 10.000 MΩ: ±(2 % of reading + 0.003 MΩ)
10.000 MΩ≤ R < 100.000 MΩ: ±(2 % of reading + 0.03 MΩ)
100.000 MΩ≤ R < 1.000 GΩ: ±(2 % of reading + 0.3 MΩ)
1.000 GΩ≤ R < 5.000 GΩ: ±(2 % of reading + 3 MΩ)
Hold function The resistance measurement after a test is finished is held while the pass judgment is displayed.
Offset cancel function Cancels up to 2000 GΩ of the unnecessary insulation resistance across output cables and the like. OFF function available.
*1 Humidity: 70 %rh or less (no condensation), when there is no interference caused by wobbly test leads or other problems.
*2 If the grounding mode (GND) is set to low in a highly humid environment, leakage current to ground will be generated from the high-voltage wiring sections inside the product and the
high-voltage wiring sections between the product and the EUT. This leakage current ranges from several nA to several tens of nA depending on the usage and wiring conditions of the
optional TOS9320 high voltage scanner and greatly affects measurement accuracy. The effects of leakage current can be reduced by making measurements with the offset enabled.
*3 Add 10 % to the accuracy when measuring 100 V or less.
*4 Add 5 % to the accuracy when measuring 100 V or less.
*5 When the measured current is limited to 100 nA or more (no condensation) when the humidity is 50 %rh or less, no external disturbance is present such as swinging test leads, and the
offset is enabled.
[Output function]
Item TOS9300 TOS9301 TOS9303 TOS9303LC
Negative
polarity
Output voltage
range
-25 V to -1000 V
Resolution 1 V
Setting accuracy ±(1.2 % of setting + 2 V)
Max. rated load 1 W (-1000 V/1 mA)
Ripple
1 kV no load 2 Vp-p or less
Max. rated load 10 Vp-p or less
Short-circuit current 12 mA or less
Positive
polarity *1
Output voltage
range
−
+50 V to +7200 V
Resolution 1 V
Setting accuracy ±(1.2 % of setting + 0.02 kV)
Max. rated load 7.2 W(7200 V/1 mA)
Ripple
1 kV no load 20 Vp-p or less
Max. rated load 50 Vp-p or less
Short-circuit current 100 mA (TYP) (200 mA peak)
Max. rated current 1 mA
Voltage regulation 1 % or less (when changing from maximum rated load to no load)
Discharge function Forced discharge after test completion (discharge resistance: 20 kΩ)
Output voltage monitor function If the output voltage exceeds ±(10 % of setting + 50 V), the output is turned off, and the protection function is activated.
*1 TOS9300 are not supported.
■ Insulation Resistance Test
Specifications
15. 15
[Judgment function]
Item TOS9300 TOS9301 TOS9303 TOS9303LC
Behavior based on judgment
The output is shut off when a judgment is made. Buzzer volume level can be set in the range of 0 (OFF) to 10 for pass
and fail separately. In an auto test, the buzzer is valid only for the judgment that takes place at the end of the program.
UPPER FAIL
Judgment method
UPPER FAIL results when a resistance greater than or equal to the Upper limit is detected.
Judgment is not made during or Voltage rise time.
Display “U-FAIL” is displayed.
Buzzer On
SIGNAL I/O The U-FAIL signal is generated continuously until a STOP signal is received.
LOWER FAIL
Judgment method
LOWER FAIL results when a resistance less than or equal to the Lower limit is detected.
Judgment is not made during the judgment delay (Judge Delay).
Display “L-FAIL” is displayed.
Buzzer On
SIGNAL I/O The L-FAIL signal is generated continuously until a STOP signal is received.
PASS
Judgment method PASS judgment is made if U-FAIL or L-FAIL has not occurred when the test time elapses.
Display “PASS” is displayed.
Buzzer On (fixed to 50 ms)
SIGNAL I/O
The PASS signal is generated for the length of time specified by the Pass Hold setting.
If Pass Hold is set to Infinity, the PASS signal is generated continuously until a STOP signal is received.
Voltage rise rate judgment operation
Monitors the voltage rise rate during Voltage rise time. This is valid when Auto setting of the judgment delay (Delay Auto)
is set to on and the output voltage is 200 V or more. The output is shut off when a judgment is made. Buzzer volume level
can be set in the range of 0 (OFF) to 10 for pass and fail separately.
dV/dt FAIL
Judgment method When the voltage rise rate (dV/dt) is less than approx. 1 V/s.
Display “ä L-FAIL” is displayed.
Buzzer On
SIGNAL I/O The L FAIL signals are generated continuously until a STOP signal is received.
Upper limit setting range 0.001 MΩ to 100.000 GΩ (in the range up to the maximum rated current), OFF
Lower limit setting range 0.000 MΩ to 99.999 GΩ (in the range up to the maximum rated current), OFF. Setting 0.000 is equivalent to OFF.
Accuracy *1 *2 *3
(when GND is set to Guard)
(i: measured current)
(R: measurement resistance)
5 nA ≤ i ≤ 50 nA *4
500.000 MΩ ≤ R < 1.000 GΩ: ±(15 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(15 % of setting + 15 MΩ)
10.000 GΩ ≤ R ≤ 100.000 GΩ: ±(20 % of setting + 210 MΩ)
50 nA < i ≤ 100 nA *4
200.000 MΩ ≤ R < 1.000 GΩ: ±(10 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(10 % of setting + 15 MΩ)
10.000 GΩ ≤ R < 50.000 GΩ: ±(10 % of setting + 60 MΩ)
50.000 GΩ ≤ R ≤ 100.000 GΩ: ±(20 % of setting + 210 MΩ)
100 nA < i ≤ 200 nA *5
100.000 MΩ ≤ R < 1.000 GΩ: ±(7 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 2.000 GΩ: ±(7 % of setting + 15 MΩ)
2.000 GΩ ≤ R < 10.000 GΩ: ±(7 % of setting + 20 MΩ)
10.000 GΩ ≤ R < 50.000 GΩ: ±(7 % of setting + 110 MΩ)
200 nA < i ≤ 1 μA *5
10.000 MΩ ≤ R < 100.000 MΩ: ±(5 % of setting + 0.06 MΩ)
100.000 MΩ ≤ R < 1.000 GΩ: ±(5 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(5 % of setting + 15 MΩ)
10.000 GΩ ≤ R < 25.000 GΩ: ±(5 % of setting + 60 MΩ)
1 μA < i ≤ 1 mA *5
0.001 MΩ ≤ R < 10.000 MΩ: ±(2 % of setting + 0.013 MΩ)
10.000 MΩ ≤ R < 100.000 MΩ: ±(2 % of setting + 0.04 MΩ)
100.000 MΩ ≤ R < 1.000 GΩ: ±(2 % of setting + 0.31 MΩ)
1.000 GΩ ≤ R < 5.000 GΩ: ±(2 % of setting + 13 MΩ)
Accuracy *6
(when GND is set to Low)
(i: measured current)
(R: measurement resistance)
5 nA ≤ i ≤ 50 nA *4
500.000 MΩ ≤ R < 1.000 GΩ: ±(25 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(25 % of setting + 15 MΩ)
10.000 GΩ ≤ R ≤ 100.000 GΩ: ±(30 % of setting + 210 MΩ)
50 nA < i ≤ 100 nA *4
200.000 MΩ ≤ R < 1.000 GΩ: ±(20 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(20 % of setting + 15 MΩ)
10.000 GΩ ≤ R < 50.000 GΩ: ±(20 % of setting + 60 MΩ)
50.000 GΩ ≤ R ≤ 100.000 GΩ: ±(30 % of setting + 210 MΩ)
100 nA < i ≤ 200 nA *5
100.000 MΩ ≤ R < 1.000 GΩ: ±(10 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 2.000 GΩ: ±(10 % of setting + 15 MΩ)
2.000 GΩ ≤ R < 10.000 GΩ: ±(10 % of setting + 20 MΩ
10.000 GΩ ≤ R < 50.000 GΩ: ±(10 % of setting + 110 MΩ)
200 nA < i ≤ 1 μA *5
10.000 MΩ ≤ R < 100.000 MΩ: ±(5 % of setting + 0.06 MΩ)
100.000 MΩ ≤ R < 1.000 GΩ: ±(5 % of setting + 0.51 MΩ)
1.000 GΩ ≤ R < 10.000 GΩ: ±(5 % of setting + 15 MΩ)
10.000 GΩ ≤ R < 25.000 GΩ: ±(5 % of setting + 60 MΩ)
1 μA < i ≤ 1 mA *5
0.001 MΩ ≤ R < 10.000 MΩ: ±(2 % of setting + 0.013 MΩ)
10.000 MΩ ≤ R < 100.000 MΩ: ±(2 % of setting + 0.04 MΩ)
100.000 MΩ ≤ R < 1.000 GΩ: ±(2 % of setting + 0.31 MΩ)
1.000 GΩ ≤ R < 5.000 GΩ: ±(2 % of setting + 13 MΩ)
*1 Making judgments on 200 μA or less requires at least 3 seconds after the rise time ends. Making judgments when the low pass filter is set to on requires at least 10 seconds after the
rise time ends.
*2 Humidity: 70 %rh or less (no condensation), when there is no interference caused by wobbly test leads or other problems.
*3 If the grounding mode (GND) is set to low in a highly humid environment, leakage current to ground will be generated from the high-voltage wiring sections inside the product and the
high-voltage wiring sections between the product and the EUT. This leakage current ranges from several nA to several tens of nA depending on the usage and wiring conditions of the
optional TOS9320 high voltage scanner and greatly affects measurement accuracy. The effects of leakage current can be reduced by making measurements with the offset enabled.
*4 Add 10 % to the accuracy when measuring 100 V or less.
*5 Add 5 % to the accuracy when measuring 100 V or less.
*6 When the measured current is limited to 100 nA or more (no condensation) when the humidity is 50 %rh or less, no external disturbance is present such as swinging test leads, and the
offset is enabled.
16. 16
Specifications
[Timer function]
Item TOS9300 TOS9301 TOS9303 TOS9303LC
Voltage rise time settings range 0.1 s to 200.0 s
Test time setting range 0.1 s to 1000.0 s, OFF
Judgment delay (Judge Delay) setting range *1 0.1 s to 100.0 s, AUTO *2
Accuracy *3 ±(100 ppm of setting + 20 ms)
*1 Less than the sum of the rise time and fall time.
*2 If Delay Auto is set to on, UPPER judgment is not made until the charge time ends.
*3 This excludes fall time.
[Other specifications]
Item TOS9300 TOS9301 TOS9303 TOS9303LC
Grounding mode (GND) Can be switched between Low and Guard.
Low
GND is connected to the low terminal.
Measures the current flowing across the low terminal and chassis (normal applications).
Guard *1
GND is connected to Guard. Measures only the current flowing through the low terminal (current flowing through the
chassis is not measured) (high sensitivity, high accuracy measurement applications).
Filter function A low-pass filter can be inserted into the ammeter measurement circuit. *2
*1 If there is a possibility that the EUT or tools and the like will be grounded or if you are uncertain, do not set GND to Guard. Doing so is extremely dangerous because the ammeter will
be shorted and will not be able to measure current. For normal applications, set GND to Low.
*2 When the low pass filter is on, a judgment delay of at least 5 seconds and a test time are required.
17. 17
[Timer function]
Item TOS9302 TOS9303 TOS9303LC
Current rise time settings range 0.1 s to 200.0 s
Current fall time setting time *1 0.1 s to 200.0 s, OFF
Test time 0.1 s to 1000.0 s, OFF
Accuracy ±(100 ppm of setting + 20 ms) (excluding the fall time)
*1 This setting is used only when a PASS judgment occurs. During a DC test, the voltage may not drop all the way within the set time because of the electrostatic capacity inside the
product and the EUT.
[Judgment function]
Item TOS9302 TOS9303 TOS9303LC
Behavior based
on judgment
Judgment based on resistance or sensing voltage can be selected. The output is shut off when a judgment is made.
Buzzer volume level can be set in the range of 0 (OFF) to 10 for pass and fail separately.
In an auto test, the buzzer is valid only for the judgment that takes place at the end of the program.
UPPER FAIL
Judgment method
UPPER FAIL results when a resistance greater than or equal to the Upper limit is detected or when a sensing voltage is
detected. Judgment is not made during a contact check.
Display “U-FAIL” is displayed.
Buzzer On
SIGNAL I/O The U-FAIL signal is generated continuously until a STOP signal is received.
LOWER FAIL
Judgment method
LOWER FAIL results when a resistance less than or equal to the lower limit (Lower) is detected or when a sensing voltage
is detected.
Display “L-FAIL” is displayed.
Buzzer On
SIGNAL I/O The L-FAIL signal is generated continuously until a STOP signal is received.
PASS
Judgment method PASS judgment is made if U-FAIL or L-FAIL has not occurred when the test time elapses.
Display “PASS” is displayed.
Buzzer On (fixed to 50 ms)
SIGNAL I/O
The PASS signal is generated for the length of time specified by the Pass Hold setting.
If Pass Hold is set to Infinity, the PASS signal is generated continuously until a STOP signal is received.
Resistance
judgment
Upper limit setting range 0.0001 Ω to 10.0000 Ω
Lower limit setting range 0.0000 Ω to 9.9999 Ω
Judgment accuracy ±(2 % of setting + 3 mΩ)
Voltage
judgment
Upper limit setting range 0.001 V to 5.000 V AC/DC
Lower limit setting range 0.000 V to 4.999 V AC/DC
Judgment accuracy ±(2 % of setting + 0.05 V)
Calibration Calibrated using a pure resistive load (with the rms of a sine wave for AC)
Contact check function Checks that current flows through the test leads and then starts the test. (OFF setting available)
[Output function]
Item TOS9302 TOS9303 TOS9303LC
Current setting range *1
3.0 A to 42.0 A AC/DC
Resolution 0.1 A
Accuracy ±(1 % of setting + 0.4 A)
AC
Maximum rated output *2 220 VA (at the output terminal)
Distortion 2 % or less (20 A or more, using a 0.1 Ω pure resistive load)
Frequency
Select 50 Hz or 60 Hz. Sine
Accuracy ±200 ppm
Open terminal voltage 6 Vrms or less
Output method PWM switching
DC
Maximum rated output 220 W (at the output terminal)
Ripple ±0.4 Ap-p or less (TYP)
Open terminal voltage 6.0 V or less
*1 No greater than the maximum rated output and resistance no greater than the output terminal voltage 5.4 V.
*2 When tests are performed consecutively, output time limit and rest time may become necessary depending on the upper limit setting.
[Measurement function]
Item TOS9302 TOS9303 TOS9303LC
Output
ammeter
Measurement range 0.0 A to 45.0 A AC/DC
Resolution 0.01 A
Accuracy ±(1 % of reading + 0.2 A)
Response AC: true rms value: DC: mean value
Hold function The current measurement after a test is finished is held while the pass or fail judgment is displayed.
Output
voltmeter
Measurement range AC: 0.00 V to 6.00 V, DC: 0.00 V to 8.50 V
Resolution 0.001 V
Offset cancel function Cancels up to 5 V (AC/DC) of the unnecessary voltage from measurements. OFF function available.
Accuracy ±(1 % of setting + 0.02 V)
Response AC: true rms value: DC: mean value
Hold function The voltage measurement after a test is finished is held while the pass or fail judgment is displayed.
Resistance
meter
Measurement range *1 1 mΩ to 600 mΩ
Resolution 1 mΩ
Offset cancel function Cancels up to 10 Ω of the unnecessary resistance from measurements. OFF function available.
Accuracy ±(2 % of reading + 3 mΩ)
Hold function The resistance measurement after a test is finished is held while the pass judgment is displayed.
*1 Calculated from the measured output voltage and measured output current.
■ Earth Continuity Test
18. 18
[Measurement circuit network]
Item TOS9303LC
Network
A (IEC 60990 compliant) *1 (1.5 kΩ // 0.22 μF) + 500 Ω, reference measurement element: 500 Ω
B (IEC 60990 compliant)
(1.5 kΩ // 0.22 μF) + 500 Ω // (10 kΩ + 22 nF), reference measurement element: 500 Ω,
voltage measurement U1 and U3 switchable
C (IEC 60990 compliant)
(1.5 kΩ // 0.22 μF) + 500 Ω // (10 kΩ + (20 kΩ + 6.2 nF) // 9.1 nF), reference measurement element: 500 Ω,
voltage measurement U1 and U3 switchable
D (Electrical Appliances and Materials Safety
Act, etc.)
1 kΩ, reference measurement element: 1 kΩ
E (Electrical Appliances and Materials Safety
Act)
1 kΩ // (10 kΩ + 11.225 nF + 579 Ω), reference measurement element:1 kΩ
F (UL and the like) 1.5 kΩ // 0.15 μF, reference measurement element: 1.5 kΩ
G 2 kΩ, reference measurement element: 2 kΩ
H (IEC 61010-1) 375 Ω // 0.22 μF + 500 Ω, reference measurement element: 500 Ω
I (Patient, IEC60601-1wet) 1 kΩ // 10 kΩ + 0.015 μF, reference measurement element: 1 kΩ
J (through) For voltmeter calibration
PCC-1 150 Ω, reference measurement element: 150 Ω
PCC-2 (IEC 60598-1) 150 Ω // 1.5 μF, reference measurement element: 150 Ω
Network constant tolerance Resistance: ±0.1 %, capacitor 0.15 μF: ±2 %, others: ±1 %
Network accuracy
A, B, C, H Input voltage vs. output voltage ratio: logical value ± 5 %(according to IEC 60990 Annex L and F)
E Input voltage vs. output voltage ratio: logical value ± 5 %
D, G Reference measurement element (resistance) ± 1 %
I Input voltage vs. output voltage ratio: logical value ± 5 %
*1 Current measurements may not be stable due to the effects of the power supply line waveform or the wiring environment between the product and the EUT.
[Measurement function]
Item TOS9303LC
Measurement
Item
TC Touch current measurement
Measurement mode
Uses a measurement circuit network representing the impedance of a human body and measures the voltage drop
across a reference resistance to calculate the touch current.
Probe
settings
Enc - Pe
A terminal: measurement terminal (for connecting to the enclosure of the EUT)
B terminal: open
Enc - Enc A and B terminals: measurement terminal (for connecting to the enclosure of the EUT)
Enc - Liv
Enc - Neu
A terminal: measurement terminal (for connecting to the enclosure of the EUT)
B terminal: open
PCC
Protective conductor current measurement
Measurement method
Measures the voltage drop across a reference resistance inserted in the middle of the protective ground line to calculate
the protective conductor current. The measurement impedance is 150 Ω.
Patient
Patient leakage current measurement
Measurement method
Uses a network conforming to IEC 60601 and measures the voltage drop across a reference resistance to calculate the
patient leakage current.
Meter
Measures the current flowing or voltage applied across the A and B terminals (simultaneous measurement not
possible).
Measurement
method
Current
measurement
Uses a measurement circuit network representing the impedance of a human body and measures the voltage drop
across a refer-ence resistance to calculate the current flowing across the A and B terminals.
Voltage
measurement
Measures the voltage applied across the A and B terminals.
Current measurement mode
DC Eliminates AC components and measures only the DC component.
RMS Measures the true rms value (switch AC and AC+DC)
Peak *1 Measures waveform peak values
*1 Current measurements may not be stable due to the effects of the power supply line waveform or the wiring environment between the product and the EUT.
■ Leakage Current Test
Specifications
19. 19
A
B
RS
1.5kΩ
Rb
500Ω
CS
0.22μF
R1
10kΩ
C1
0.022μF U
● Measurement circuit network
(NetworkB-U1 IEC 60990 Fig. 4 U2 measurement)
A
B
RS
1.5kΩ
Rb
500Ω
CS
0.22μF
R3
20kΩ
C2
6.2nF
U
C3
9.1nF
● Measurement circuit network
(NetworkC IEC 60990 Fig. 5 U3 measurement)
A
B
Rb
1kΩ U
● Measurement circuit network
(NetworkD Electrical Appliances and
Materials Safety Act single frequency)
A
B
Rb
1kΩ R3
579Ω
R2 10kΩ
C2
11,225nF
U
● Measurement circuit network
(NetworkE Electrical Appliances and
Materials Safety Act multiple frequencies)
A
B
Rb
1.5kΩ
C1
0.15μF U
● Measurement circuit network
(NetworkF IEC 61029, UL)
A
B
Rb
2kΩ U
● Measurement circuit network
(NetworkG IEC 60745)
A
B
RS
1.5kΩ
Rb
500Ω
CS
0.22μF
R1
10kΩ
C1
0.022μF
U1
● Measurement circuit network
(NetworkB-U2 IEC 60990 Fig. 4 U1 measurement)
● Measurement circuit network
(NetworkI IEC 60601-1)
A
B
RS
1.0kΩ C2
0.015μF
±5%
U
R2 10kΩ
● Measurement circuit network
(NetworkPCC-1)
● Measurement circuit network
(NetworkPCC-2 IEC60598-1)
RS
150Ω U
A
B
A
B
RS
1.5kΩ
Rb
500Ω
CS
0.22μF
U
● Measurement circuit network
(NetworkA IEC 60990 Fig. 3 U1 measurement)
A
B
Rs
150Ω
C1
1.5μF U
20. 20
[Measurement section]
Item TOS9303LC
Measured current
display
(I: measured current)
(□: measurement
display)
I < 100 μA □□.□□ μA, resolution 0.01 μA
100 μA ≤ I < 1 mA □□□.□ μA, resolution 0.1 μA
1 mA ≤ I < 10 mA □.□□□ mA, resolution 0.001 mA
10 mA ≤ I < 100 mA □□.□□ mA, resolution 0.01 mA
Measurement range
*1
Range 1 DC, RMS: 1.00 μA(min.) to 200.00 μA(max), Peak: 1.00 μA(min.) to 282.00 μA(max)
Range 2 DC, RMS: 12.50 μA(min.) to 2000.0 μA(max), Peak: 17.50 μA(min.) to 2830.0 μA(max)
Range 3 DC, RMS: 125.0 μA(min.) to 20.000 mA(max), Peak: 175.0 μA(min.) to 28.300 mA(max)
Range 4 DC, RMS: 1.250 mA(min.) to 100.00 mA(max), Peak: 1.750 mA(min.) to 100.00 mA(max)
Range switching
Auto or Fix selectable. If a measurement falls outside the measurement range of each range, the measured
value blinks as a warning.
Auto The range is set automatically according to the measurements.
Fix
For TC and PCC measurements, the measurement range is selected automatically according to the UPPER
value. For meter measurements, the range is fixed to the specified range.
Bandwidth switching
Can be expanded to a bandwidth that allows measurements from 0.1 Hz, which is required in the
measurement of medical instruments and the like.
Normal Normal measurement bandwidth: 15 Hz to 1 MHz
Expand Expands the measurement range to 0.1 Hz to 1 MHz
Total accuracy *2
(when network A, B,
or C is used) *3
Range 1
DC ±(5.0 % of reading + 2 μA)
RMS
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 2 μA)
15 Hz ≤ f ≤ 100 kHz ±(7.0 % of reading + 2 μA)
100 kHz < f ≤ 1 MHz ±(10.0 % of reading + 2 μA)
Peak
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 10 μA)
15 Hz ≤ f ≤ 1 kHz ±(10.0 % of reading + 10 μA)
1 kHz < f ≤ 100 kHz ±(10.0 % of reading + 10 μA)
100 kHz < f ≤ 1 MHz ±(20.0 % of reading + 10 μA)
Range 2
DC ±(5.0 % of reading + 20 μA)
RMS
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 10 μA)
15 Hz ≤ f ≤ 100 kHz ±(7.0 % of reading + 8 μA)
100 kHz < f ≤ 1 MHz ±(10.0 % of reading + 10 μA)
Peak
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 10 μA)
15 Hz ≤ f ≤ 1 kHz ±(10.0 % of reading + 10 μA)
1 kHz < f ≤ 100 kHz ±(10.0 % of reading + 10 μA)
100 kHz < f ≤ 1 MHz ±(20.0 % of reading + 10 μA)
Range 3
DC ±(5.0 % of reading + 50 μA)
RMS
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 20 μA)
15 Hz ≤ f ≤ 100 kHz ±(7.0 % of reading + 20 μA)
100 kHz < f ≤ 1 MHz ±(10.0 % of reading + 20 μA)
Peak
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 50 μA)
15 Hz ≤ f ≤ 1 kHz ±(7.0 % of reading + 50 μA)
1 kHz < f ≤ 100 kHz ±(10.0 % of reading + 50 μA)
100 kHz < f ≤ 1 MHz ±(20.0 % of reading + 50 μA)
Range 4
DC ±(5.0 % of reading + 0.5 mA)
RMS
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 0.2 mA)
15 Hz ≤ f ≤ 100 kHz ±(7.0 % of reading + 0.2 mA)
100 kHz < f ≤ 1 MHz ±(10.0 % of reading + 0.2 mA)
Peak
0.1 Hz ≤ f < 15 Hz ±(10.0 % of reading + 0.5 mA)
15 Hz ≤ f ≤ 1 kHz ±(7.0 % of reading + 0.5 mA)
1 kHz < f ≤ 100 kHz ±(10.0 % of reading + 0.5 mA)
100 kHz < f ≤ 1 MHz ±(20.0 % of reading + 0.5 mA)
Input resistance 1 MΩ ± 1 %
Input capacitance 200 pF or less (internal voltmeter input capacitance: 100 pF or less)
Common mode rejection ratio 10 kHz or less: 60 dB or more, 10 kHz to 1 MHz: 40 dB or more
Offset cancel function Cancels up to 10 mA of the unnecessary current from measurements. OFF function available.
*1 Voltmeter band expansion is possible when network I is selected.
*2 0.1 Hz ≤ f < 15 Hz is for when voltmeter band expansion (VoltMeter BandWidth) is set to Expand. Requires at least 120 second of test time.
*3 A value converted to current for measurements using Network A, B, C or H with voltmeter accuracy of this product as the reference.
If a network other than A, B, C or H is used, calculate as follows:
For Network D, E, or I, the ■ part of ±(□% of reading + ■A) is half the value.
For F, the ■ part is one-third the value.
For G, the ■ part is one-fourth the value.
For PCC-1 or PCC-2, the ■ part is 3.3 times the value.
Specifications
The range varies by network.
21. 21
[Judgment function]
Item TOS9303LC
Behavior based
on judgment
Judgment starts after the judgment delay (Judge Delay). Buzzer volume level can be set in the range of 0 (OFF) to 10 for
pass and fail separately. In an auto test, the buzzer is valid only for the judgment that takes place at the end of the program.
UPPER FAIL
Judgment method UPPER FAIL results when a current greater than or equal to the upper limit (Upper) is detected.
Display “U-FAIL” is displayed.
Buzzer On
SIGNAL I/O The U-FAIL signal is generated continuously until a STOP signal is received.
LOWER FAIL
Judgment method LOWER FAIL results when a current less than or equal to the lower limit (Lower) is detected.
Display “L-FAIL” is displayed.
Buzzer On
SIGNAL I/O The L-FAIL signal is generated continuously until a STOP signal is received.
PASS
Judgment method PASS judgment is made if U-FAIL or L-FAIL has not occurred when the test time elapses.
Display “PASS” is displayed.
Buzzer On (fixed to 50 ms)
SIGNAL I/O
The PASS signal is generated for the length of time specified by the Pass Hold setting.
If Pass Hold is set to Infinity, the PASS signal is generated continuously until a STOP signal is received.
Upper Setting
range
RANGE 1 DC, RMS: 0.1 μA(min.) to 200 μA(max), Peak: 0.1 μA(min.) to 282 μA(max)
RANGE 2 DC, RMS: 15.1 μA(min.) to 2.00 mA(max), Peak: 21.3 μA(min.) to 2.83 mA(max)
RANGE 3 DC, RMS: 151 μA(min.) to 20.00 mA(max), Peak: 213 μA(min.) to 28.3 mA(max)
RANGE 4 DC, RMS: 1.51 mA(min.) to 100 mA(max), Peak: 2.13 mA(min.) to 100 mA(max)
Lower Setting range A value that is -1 digit from the upper setting range.
Judgment accuracy Conforms to total accuracy(Read “reading” as “upper setting” of total accuracy.)
[Timer function]
Item TOS9303LC
Judgment delay (Judge Delay)
Setting range 1.0 s to 1000.0 s, OFF
Accuracy ±(100 ppm of setting + 20 ms)
Test time
Setting range 1.0 s to 1000.0 s, OFF
Accuracy ±(100 ppm of setting + 20 ms)
[Other specifications]
Item TOS9303LC
Voltage conversion
Displays the estimated current converted with the preset supply voltage (Conv Voltage), based on the voltage supplied to
the EUT and the measured current. (This is invalid in meter mode.)
Setting range 80.0 V to 300.0 V, OFF
Resolution 0.1 V
Power supply line polarity selection Set the polarity of the power supply line to supply to the EUT to positive or negative.
Single fault mode (Condition) selection
Set the EUT single fault mode to normal, neutral line disconnection (Fault Neu),
or protective ground wire disconnection (Fault PE).
Ground check
In the touch current test between the enclosure and power supply line, if the EUT enclosure is grounded,
CONTACT FAIL occurs.
Measurement check
Checks the measurement function by shorting across the A and B terminals.
If an error is found, the protection function is activated.
Supply voltage measurementAC
LINE (EUT)
Measurement range 80.0 V to 250.0 V
Resolution 0.01 V
Accuracy ±(3 % of reading + 1 V)
Supply current measurementAC
LINE (EUT)
Measurement range 0.1 A to 15.00 A
Resolution 0.001 A
Accuracy ±(5 % of reading + 30 mA)
Power measurement(active power)
Measurement range 10 W to 1500 W
Accuracy ±(5 % of reading + 8 W) (with the supply voltage at 80 V or more, at a load power factor of 1)
Voltage
measurement
across the A
and B termi-
nals
Measurement
range
DC 10.00 V to 300.0 V
RMS 10.00 V to 300.0 V
Peak 15.00 V to 430.0 V
Input impedance Approx. 40 MΩ
Accuracy *1 ±(3 % of reading + 2 V) (measurement range fixed to AUTO)
SELV detection Set a voltage for detecting SELV. When the value is exceeded, the DANGER LED lights.
Setting range 10.0 V to 99.9 V, OFF
Resolution 0.1 V
Measurement
terminal
Rated voltage
Between the A and
B terminals
250 V
Between the terminals
and chassis
250 V
Rated current 100 mA
Measurement category CAT-II
Valid terminal display Terminals valid for measurement are indicated on the display.
110% terminal Terminal for supplying 110% voltage of the AC line.
Power supply
for the EUT
Nominal voltage range 100 V to 240 V, 50 Hz/60 Hz
Input voltage range
(allowable voltage range)
85 Vac to 250 Vac
Rated output capacity 1500 VA
Maximum operating current 15 A (Overcurrent protection is activated at approximately 15.7 A.)
Inrush current 70 Apeak max. (within 20 ms)
*1 If voltage is measured with the A and B terminals open, measurements will be easily affected by induced voltage.
The range varies by network.
22. 22
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
REMOTE
5-pin DIN connector. Connect the following option to remotely control the starting and stopping of tests.
• Remote control box RC01-TOS, RC02-TOS
• High voltage test probe HP01A-TOS, HP02A-TOS (when the test voltage is 4 kVac 5 kVdc or less)
SIGNAL I/O D-sub 37-pin connector. For the pin arrangement
Function
Enable/disable interlock, recall setup memories, recall auto test programs, start/stop testing, monitor the test and voltage
generation status, monitor the test status, monitor judgment results, monitor the step execution status of auto tests,
monitor the activation status of protection functions
Input specifications
The input signals are all low-active control. The input terminal is pulled up to +12 V by a resistor.
Leaving the input terminal open is equivalent to applying a high level signal.
High-level input voltage 11 V to 15 V
Low-level input voltage 0 V to 4 V
Low-level input current -5 mA max.
Input time width 5 ms min.
Output
specifications
Output method Open collector output (4.5 Vdc to 30 Vdc)
Output withstanding voltage 30 Vdc
Output saturation voltage Approx. 1.1 V (25 °C)
Maximum output current 400 mA(TOTAL)
STATUS OUT Output terminal of an option product.
Positive terminal (red) Outputs +24 V. Use Status Out of CONFIG settings to set the output conditions.
Negative terminal (black) +24 V circuit common.
SCANNER
MINI DIN 8-pin connector. Terminal for the optional TOS9320 high voltage scanner.
The maximum number of connections is 4 devices(16 channels).
USB (host)
Standard type A socket, FAT32, 32 GB or less
Complies with the USB 2.0 specifications; data rate: 12 Mbps (full speed)
Remote control All functions except turning on and off the power, key lock, and auto test can be remotely controlled.
RS232C
Hardware
D-sub 9-pin connector (EIA-232D compliant)
Baud rate: 9600, 19200, 38400, 57600, 115200 bps
Data length: 8 bits; stop bits: 1 bit; parity bit: none, flow control: none/CTS-RTS
Message terminator LF during reception, LF during transmission.
USB (device)
Hardware Standard Type B connector. Complies with the USB 2.0 specifications; data rate: 480 Mbps (high speed)
Message terminator LF or EOM during reception, LF + EOM during transmission.
Device class Complies with the USBTMC-USB488 device class specifications.
LAN
Hardware IEEE 802,3 100Base-TX/10Base-T Ethernet. Auto-MDIX compliant.IPv4, RJ-45 connector.
Compliant standards LXI 1.4 Core Specification 2011
Communication protocol VXI-11, HiSLIP, SCPI-RAW, SCPI-Telnet
Message terminator
VXI-11, HiSLIP: LF or END during reception, LF + END during transmission.
SCPI-RAW: LF during reception, LF during transmission.
Display 7-inch LCD
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
Auto test Auto execution by combining ACW, DCW, IR, and EC. For LC, a combination is possible only using TC, PCC, and Patient.
Test condition
memory
Setup memory Up to 51 test conditions (ACW, DCW, IR, EC, LC) can be saved.
Program memory Up to 100 program (ACW, DCW, IR, EC) combinations, each containing 100 steps, can be saved.
Program memory (LC) Up to 100 program (TC, PCC, Patient) combinations, each containing 100 steps, can be saved.
Test result memory
Records up to 1000 latest test result of independent tests and auto tests. These are cleared when the power is turned off.
Test results can be saved in CSV format to a USB memory device.
System clock For recording the calibration time and test times
Recordable time Up to year 2038
Calibration period setting
Displays a warning at power-on when the specified period passes. Select whether to activate a protection function or only
display a warning in the display area when a warning occurs.
Measurement display Maximum and minimum measurements can be displayed.
Normal Displays measurements during a test. Maximum and minimum values are not held.
Maximum and minimum value display
Displays the maximum current measurement for withstanding voltage (ACW/DCW) tests, the minimum resistance
measurement for insulation resistance (IR) tests, the resistance measurement or voltage measurement for earth continuity
(EC) tests.
Test start
method
Double Action When you press STOP, “READY” is shown for 0.5 seconds. A test starts only when you press START within this period.
Momentary Tests are only executed while the START switch is held down.
Start Long A test starts only when the START switch is held down for at least 1 second.
PASS judgment display time (Pass Hold) Set the time to hold the pass judgment result display (0.05 s to 10.00 s) or hold it until STOP is pressed (Infinity).
STOP signal disable (Fail Mode)
It is possible to set the instrument so that fail judgment results and PROTECTION mode cannot be released from a device
connected to the SIGNAL I/O connector or REMOTE connector.
Key lock Lock the operation of the keys to prevent changing the settings or overwriting memory or programs by mistake.
Specifications
■ Interface (Common)
■ Other Functions (Common)
23. 23
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
Protection functions
If a protection function is activated during a test, the output is shut off and the test is stopped immediately.In an LC test,
the power supply to the EUT is stopped, and the A and B terminals are opened.Conditions that cause a protection function
to be activated are as follows.
Interlock Interlock is activated.
Power Supply There is an error in the power supply section.
Output Error
An output voltage outside of the following range is detected. ACW, DCW, IR test: ±(10 % of setting + 50 V)
EC test: ±(10 % of setting + 2 A)
Over Load
An output power or output current outside of the following range is detected.
ACW: 550 VA, DCW: 110 W or 50 mA, IR (7200 V test): 110 W or 25 mA, IR (-1000 V test): 2 mA, EC: 240 VA,
LC: AC LINE OUT current at approx. 15.7 A or power at 1600 VA..
Over Heat The internal temperature of the product is abnormally high.
Over Rating During a withstanding voltage test, an output current is generated for a length of time that exceeds the output time limit
Cal The preset calibration period is exceeded.
Remote The REMOTE connector is connected or disconnected.
Signal I/O There is a change in the SIGNAL I/O connector’s ENABLE signal.
Communication An internal communication error is occurring.
Over Range A value exceeding the maximum value of the measurement range is detected.
Measure An error is detected in the LC test measurement check.
Short A relay operation error is detected in an LC test.
Earth Fault
When the grounding mode (GND) is set to Guard, abnormal current flows from the high voltage output of this product to
ground.
Scan I/F While scanning, the interface cable is disconnected. Or, the channel-assigned scanner is not detected.
Item TOS9300 TOS9301 TOS9302 TOS9303 TOS9303LC
Backup battery life 3 years (at 25 °C)
Environment
Installation location Indoors, 2000 m or less
Spec guara-
nteed range
Temperature 5 °C to 35 °C (41 °F to 95 °F)
Humidity 20 %rh to 80 %rh (no condensation)
Operating
rang
Temperature 0 °C to 40 °C (32 °F to 104 °F)
Humidity 20 %rh to 80 %rh (no condensation)
Storage
range
Temperature -20 °C to 70 °C (-4 °F to 158 °F)
Humidity 90 %rh or less (no condensation)
Power supply
Nominal voltage range
(allowable voltage range)
100 Vac to 120 V, 200 V to 240 V (90 Vac to 132 V, 170 V to 250 V)
Power
consumption
No load(READY state) 100 VA or less
Rated load 800 VA max.
Allowable frequency range 47 Hz to 63 Hz
Insulation resistance (between AC LINE and chassis) 30 MΩ or more (500 Vdc)
Withstanding voltage (between AC LINE and chassis) 1500 Vac, 1 minute, 20 mA or less
Earth continuity 25 Aac, 0.1 Ω or less
Weight
TOS9300: Approx. 17 kg (37.5 lb.), TOS9301: Approx. 18 kg (39.7 lb.), TOS9302: Approx. 20 kg (44.1 lb.),
TOS9303: Approx. 21 kg (46.3 lb.), TOS9303LC: Approx. 22 kg (48.5 lb.)
Accessories
Power cord (1 pc., *length: 2.5 m : The attached power cord varies depending on the shipment destination.),
High-voltage test lead: TL31-TOS (1 pair), SIGNAL I/O plug (1 set), High-voltage warning sticker (1 pc.),
Setup Guide (1 copy), CD-ROM (1 disc), Safety Information (1 copy),
Heavy object warning label (1 pc., *Not included with the TOS9300),
Test leads for earth continuity test: TL13-TOS (1 pair., *TOS9302, TOS9303,TOS9303LC only),
[TOS9303LC only: Spare fuse (1 pc.), Test leads for leakage current test (2 red, 1 black), Flat probe (1 sheet)]
Electromagnetic compatibility *1 *2
Complies with the requirements of the following directive and standards.
EMC Directive 2014/30/EU
EN 61326-1 (Class A *3), EN 55011 (Class A *3, Group 1 *4), EN 61000-3-2, EN 61000-3-3
Applicable under the following conditions
The maximum length of all cabling and wiring connected to the product must be less than
2.5 m.Shielded cables are being used when using the SIGNAL I/O.The high-voltage test lead
TL31-TOS is in use.Electrical discharges are applied only to the EUT.
Safety *1
Complies with the requirements of the following directive and standards.
Low Voltage Directive 2014/35/EU *2, EN 61010-1 (Class I *5 , Pollution Degree 2 *6)
*1 Does not apply to specially ordered or modified products.
*2 Limited to products that have a CE mark.
*3 This is a Class A instrument. This product is intended for use in an industrial environment. This product may cause interference if used in residential areas. Such use must be avoided
unless the user takes special measures to reduce electromagnetic emissions to prevent interference to the reception of radio and television broadcasts.
*4 This is a Group 1 instrument. This product does not generate and/or use intentionally radio-frequency energy, in the form of electromagnetic radiation, inductive and/or capacitive
coupling, for the treatment of material or inspection/analysis purpose.
*5 This is a Class I instrument. Be sure to ground this product's protective conductor terminal. The safety of this product is guaranteed only when the product is properly grounded.
*6 Pollution is addition of foreign matter (solid, liquid or gaseous) that may produce a reduction of dielectric strength or surface resistivity. Pollution Degree 2 assumes that only non-
conductive pollution will occur except for an occasional temporary conductivity caused by condensation.
■ General Specifications (Common)
■ Other Functions (Common)
24. 24
[Basic specifications]
Item TOS9320
Maximum operating voltage
AC 5 kV
DC 7.2 kV
Number of channels 4 (Each channel can be set to high, low, or open.)
Maximum connections
4 units
Channel numbers are assigned according to the order in which connections are made to the TOS9300 series tester.
1st scanner: CH1 to CH4, 2nd scanner:CH5 to CH8, 3rd scanner: CH9 to CH12, 4th scanner: CH13 to CH16
Contact check function Available
Indicators
DANGER Lights up in sync with the TOS9300 series tester
CHANNEL Indicates the setting of each channel with color. Red: High, Green: Low, Orange: Contact being checked, Off: Open
EXTERNAL Lights up when external control is on
POWER Lights up when the power is on
[Interface and other functions]
Item TOS9320
Control switch
EXTERNAL I/O switch for switching the following controls.
ON: External control through the CONTROLLER INTERFACE OFF: Control from the TOS9300 series tester
CONTROLLER INTERFACE (external control) D-sub 25-pin connector.
Function Sets each channel to high or low or all channels to open. Outputs the setting of each channel.
Input
The input signals are all low-active control. The input terminal is pulled up to +12 V by a resistor. Leaving the input terminal
open is equivalent to applying a high level signal.
High-level input voltage 11 V to 15 V
Low-level input voltage 0 V to 4 V
Low-level input current -5 mA max.
Input time width 5 ms min.
Output
Output method Open collector output (4.5 Vdc to 30 Vdc)
Output withstanding voltage 30 Vdc
Output saturation voltage Approx. 1.1 V (25°C, 77°F)
Maximum output current 400 mA (TOTAL)
TOS9300 series tester interface MINI DIN 8-pin connector. Accuracy guaranteed up to 4 units (16 channels)
[General specifications]
Item TOS9320
Environment
Installation location Indoors, 2000 m or less
Spec guaranteed
range
Temperature 5°C to 35°C (41°F to 95°F)
Humidity 20%rh to 70%rh (no condensation)
Operating range
Temperature 0°C to 40°C (32°F to 104°F)
Humidity 20%rh to 80%rh (no condensation)
Storage range
Temperature -20°C to 70°C (-4°F to 158°F)
Humidity 90%rh or less (no condensation)
Power supply
Nominal voltage range
(allowable voltage range)
100 Vac to 240 Vac (90 Vac to 250 Vac)
Power consumption 50 VA max.
Allowable frequency range 47 Hz to 63 Hz
Insulation resistance (between AC LINE and chassis) 30 MΩ or more (500 Vdc)
Withstanding voltage (between AC LINE and chassis) 1500 Vac for 1 minute, 20 mA or less
Earth continuity 25 Aac/0.1 Ω or less
Weight Approx. 8 kg (17.6 lb)
Accessories
Power cord (1 pc., length: 2.5 m: The attached power cord varies depending on the shipment destination.)
High-voltage test lead [TL31-TOS] (8 red), Lead for high voltage parallelconnection TL33-TOS (1 pair),
Interface cable (1 pc.), CONTROLLER INTERFACEplug (1 set), High-voltage warningsticker (2 pc.),
Channel labels (For the panel (1 sheet), For the test leads (1 sheet)), User’s manual (1 copy), Safety Information (1 copy)
Electromagnetic compatibility *1 *2
Complies with the requirements of the following directive and standards.
EMC Directive 2014/30/EU, EN 61326-1 (Class A *3), EN 55011 (Class A *3, Group 1 *4),
EN 61000-3-2, EN 61000-3-3
Applicable under the following conditions
The maximum length of all cabling and wiring connected to this product is less than 2.5 m.
A shielded cable is used for the connection to the CONTROLLER INTERFACE. The high-voltage test lead TL31-TOS is in
use.Electrical discharges are applied only to the EUT.
Safety *1
Complies with the requirements of the following directive and standards.
Low Voltage Directive 2014/35/EU *2, EN 61010-1 (Class I *5, Pollution Degree 2 *6)
*1 Does not apply to specially ordered or modified products.
*2 Limited to products that have a CE mark.
*3 This is a Class A instrument. This product is intended for use in an industrial environment. This product may cause interference if used in residential areas. Such use must be avoided
unless the user takes special measures to reduce electromagnetic emissions to prevent interference to the reception of radio and television broadcasts.
*4 This is a Group 1 instrument. This product does not generate and/or use intentionally radio-frequency energy, in the form of electromagnetic radiation, inductive and/or capacitive
coupling, for the treatment of material or inspection/analysis purpose.
*5 This is a Class I instrument. Be sure to ground this product's protective conductor terminal. The safety of this product is guaranteed only when the product is properly grounded.
*6
Pollution is addition of foreign matter (solid, liquid or gaseous) that may produce a reduction of dielectric strength or surface resistivity. Pollution Degree 2 assumes that only non-
conductive pollution will occur except for an occasional temporary conductivity caused by condensation.
Specifications
■ High Voltage Scanner
26. 26
Option
The remote control box can be used to start and stop
withstanding voltage and insulation resistance tests.
One model is for use with one hand, and the other
model is for use with two hands.
■ RC01-TOS (One-hand operation/1.5 m)
■ RC02-TOS (Two-hand operation/1.5 m)
■ TOS9320
High-Voltage Scanner for TOS9300 Series for
Multi-Channel Testing Systems
Dimensions(Maximum) / Weight
430(16.93")(440(17.32"))W×88(3.46")(105(4.13"))H×
370(14.57")(390(15.35"))Dmm/ 8 kg(17.6 lbs)
Features
■Output can be expanded to four channels with one high-voltage scanner. The electric potential of each channel
can be arbitrarily set to high, low, or open, and can be tested at any of these four points.
■Up to four high voltage scanners (total 16 channels) can be connected to each unit.
■Output of each channel and contact with testing points can be easily monitored.
The high-voltage scanner TOS9320 is a specialized option for the TOS9300 series, capable of
rapidly distributing test voltage from the main unit to multiple testing points for withstanding voltage
and insulation resistance testing. Channels can be controlled with an external device through the
back panel CONTROLLER INTERFACE connector. Remote control is not limited to the TOS9300
series, but is also compatible with previous models such as the TOS5300 series hipot/insulation
resistance tester. The TOS9320 high-voltage scanner is an essential tool for the automation of
highly reliable testing of electronic devices among multiple channels.
*DD-5P/9P DIN conversion cable required for connection
with TOS9300 series.
*DD-5P/9P DIN conversion cable required for connection
with TOS9300 series.
*DD-5P/9P DIN conversion cable required for connection
with TOS9300 series.
The DIN (5 pin → 9 pin) conversion cable is used for
connection with the following optional products and
the TOS9300 series.
• Remote control box(RC01-TOS/RC02-TOS)
• High voltage test probe(HP01A-TOS/HP02A-TOS)
■ DD-5P/9P Adaptor/DIN to Mini DIN
The warning light unit indicates when the TOS9300
is performing a test, making clear that a test is in
progress from a distance.
■ PL02-TOS (for AC/DC24 V)
The multi outlet OT01-TOS can be used to connect to
main plug standards world wide by connecting to the
AC LINE OUT terminal block of the EUT power supply
■ OT01-TOS
Rack Mount Bracket
DIN Conversion Cable
Multi Outlet
Warning Light Unit
High-Voltage Test Probe
This probe is used for generating test voltage. This
probe has been designed to only generate test voltage
when the user operatates the probe with both hands in
order to prevent accidental test voltage generation.
■ HP01A-TOS (Max.AC4 kV • DC5 kV/1.8 m)
■ HP02A-TOS (Max.AC4 kV • DC5 kV/3.5 m)
Remote Control Box
High-Voltage Scanner
for TOS9303LC
Complied Model
JIS Standard EIA Standard
Bracket Model Name Bracket Model Name
TOS9300
TOS9301
TOS9301PD
TOS9302
TOS9303
TOS9303LC
KRB150-TOS KRB3-TOS
TOS9320
KRB100-TOS KRB2-TOS
Unit:mm(inches)
Unit:mm(inches)
456.4(17.97)
100(3.94)
57(2.24)
132(5.2)
24.5
(0.96)
37.5
(1.48)
149(5.87)
477.8(18.81)
456.4(17.97)
477.8(18.81)
Unit:mm(inches)
Unit:mm(inches)
456.4(17.97)
100(3.94)
57(2.24)
132(5.2)
24.5
(0.96)
37.5
(1.48)
149(5.87)
477.8(18.81)
456.4(17.97)
477.8(18.81)
KRB100-TOS
KRB2-TOS
Unit:mm(inches) Unit:mm(inches)
460(18.11)
465(18.31)
479.2(18.87)
479.2(18.87)
50(1.97)
76(2.99)
88(3.46)
24.5
(0.96)
6
(0.24)
99(3.9)
KRB100-TOS
KRB2-TOS
Unit:mm(inches) Unit:mm(inches)
460(18.11)
465(18.31)
479.2(18.87)
479.2(18.87)
50(1.97)
76(2.99)
88(3.46)
24.5
(0.96)
6
(0.24)
99(3.9)
27. 27
■ 929-1M (1 MΩ)
■ 929-10M (10 MΩ)
■ 929-100M (100 MΩ)
■ 149-10A ■ RL01-TOS
●Measurement of high voltages (AC/DC) of up to 10 kV
maximum ●Large 4 1/2 digit LED display
●High measuring accuracy and input resistance
●Light weight of only 3 kg ●Compact design
●Excellent ease of maintenance
This device is described in section 125, paragraph
2-1B1 of UL1492. The RL01-TOS is a variable load
resistor for checking the output voltage of hipot testers
used in dielectric strength testing on production lines.
(Complies with UL regulations including UL1270,
UL1409 and UL1410.)
The 929 Series Standard Resistors are for calibration
of Insulation Testers.
Specification
Type Double integration type.
(sampling cycle: 3 times/sec)
DC Voltage Measuring range: 0.500 kV to 10,000 kV
Accuracy: ±(0.5 % of reading + 0.03 % of
range) Input resistance: 1000 MΩ ± 2 %
AC Voltage Measuring range: 0.500 kV to 10,000 kV
Accuracy: ±(1 % of reading + 0.05 % of
range) Frequency characteristics: 50/60
Hz (sine wave rms value display of mean
value response)
Input resistance: 1000 MΩ ± 2%
Power 100 V ±10%, Approx. 10 VA
Dimensions
(MAX)
134[5.27 inch]W × 164[6.46 inch]H ×
270[10.63 inch]D mm
(140[5.51 inch]W × 189[7.44 inch]H ×
350[13.78 inch]D mm)
Weight Approx. 3 kg (6.6 lbs)
Accessories TL05-TOS High voltage test leads: 1
HTL2.5DH High voltage test lead: 1
Specification
Nominal
Resistance
1 MΩ(929-1M)/ 10 MΩ(929-10M)
100 MΩ(929-100M)
Accuracy of
Resistance
1 % at 25 ˚C ±10 ˚C
Temperature
Coefficient
100 ppm/˚C or better
Voltage
Coefficient
1 ppm/V or better
Working
voltage rating
1.2 kV
Dimensions
(MAX)
64[25.20 inch]W × 24[9.45 inch]H ×
30[11.81 inch]D mm
*The 929 series standard resistors can not be installed
directly to the TOS series. Please use the test lead for
connection.
Specification
Resistors 120 kΩ/ 159 kΩ/ 210 kΩ/ 279 kΩ/ 369 kΩ/
489 kΩ/ 648 kΩ/ 858 kΩ/ 1,137 kΩ/
1,500 kΩ/ 1,989 kΩ/ 2,148 kΩ
Resistance
Accuracy
+1 %, -0 % of nominal value when set to
120 kΩ, ±1 % of nominal value when set to
other values
Maximum
Operating
Voltag
1300 V (continuous rating)
Maximum
Overload
Voltage
1400 V for 5 seconds (application may not
be repeated within 1 minute)
Dimensions
(MAX)
200[7.87 inch]W × 100[3.94 inch]H ×
260[10.24 inch]D mm
(210[8.27 inch]W × 120[4.72 inch]H ×
295[11.61 inch]D mm)
Weight Approx. 2.6 kg (5.73 lbs)
Accessories TL04-TOS High-voltage test lead: 2
TL05-TOS High-voltage test lead: 1
High-Voltage Digital Voltmeter UL Resistance Load Calibration Resistor for
Insulation Resistance Tester
Others
28. Lineup Overview
●Electrical Safety Multi-analyzer
Model
Test items
AC Withstanding
Voltage (AC Hipot)
DC Withstanding
Voltage (DC Hipot)
Insulation
Resistance
Earth Continuity
(Ground Bond)
Leakage Current Partial Discharge
TOS9300 ● ●
TOS9301 ● ● ●
TOS9301PD ● ● ● ●
TOS9302 ● ●
TOS9303 ● ● ● ●
TOS9303LC ● ● ● ● ●
A
A
Printed in Japan Issue:Oct.2020 202010PDFEC31
■ All products contained in this catalogue are equipment and devices that are premised on use under the supervision
of qualified personnel, and are not designed or produced for home-use or use by general consumers. ■ Specifications,
design and so forth are subject to change without prior notice to improve the quality. ■ Product names and prices
are subject to change and production may be discontinued when necessary. ■ Product names, company names and
brand names contained in this catalogue represent the respective registered trade name or trade mark. ■ Colors,
textures and so forth of photographs shown in this catalogue may differ from actual products due to a limited fidelity in
printing. ■ Although every effort has been made to provide the information as accurate as possible for this catalogue,
certain details have unavoidably been omitted due to limitations in space. ■ If you find any misprints or errors in this
catalogue, it would be appreciated if you would inform us. ■ Please contact our distributors to confirm specifications,
price, accessories or anything that may be unclear when placing an order or concluding a purchasing agreement.
● Distributor/Representative
www.kikusui.cn
Room 305,Shenggao Building , No.137,Xianxia Road, Shanghai City, China
Phone : 021-5887-9067 Facsimile : 021-5887-9069
www.kikusuiamerica.com
1-310-214-0000
3625 Del Amo Blvd, Suite 160, Torrance, CA 90503
Phone : 310-214-0000 Facsimile : 310-214-0014
Southwood 4F,6-1 Chigasaki-chuo,Tsuzuki-ku,Yokohama,224-0032,Japan
Phone: (+81)45-482-6353,Facsimile: (+81)45-482-6261,www.kikusui.co.jp
●Option
Description Model Remark
High-voltage scanner TOS9320 4 channel high-voltage scanner with contact check function; can be used standalone
Remote control box
RC01-TOS One-hand operation/1.5 m
RC02-TOS Both-hands operation/1.5 m
DIN conversion cable DD-5P/9P It is required when RC01-TOS/RC02-TOS, HP01A-TOS/HP02A-TOS and HP21-TOS is used
High-voltage test probe
HP01A-TOS Max.AC4 kV • DC5 kV/1.8 m
HP02A-TOS Max.AC4 kV • DC5 kV/3.5 m
Test probe for touch current test HP21-TOS Test probe for TOS9303LC. Max.250 V rms • 100 mA/ 1.8 m
Warning light unit PL02-TOS for AC/DC24 V
Multi outlet OT01-TOS for TOS9303LC
Rack mount bracket
KRB150-TOS JIS standard (mm) for TOS9300/9301/9301PD/9302/9303/9303LC
KRB3-TOS EIA standard (inch) for TOS9300/9301/9301PD/9302/9303/9303LC
KRB100-TOS JIS standard (mm) for TOS9320
KRB2-TOS EIA standard (inch) for TOS9320
Under
development