This document provides information on the INA121 instrumentation amplifier, including:
- Key features such as low bias current, input offset voltage, and noise
- Block diagram and description of its three op-amp design
- Specifications tables listing parameters such as gain accuracy, bandwidth, and power supply range
- Application areas like transducer amplification and portable/battery systems
- Performance graphs showing characteristics like common mode rejection and input bias current
This document provides information about the AD524 precision instrumentation amplifier from Analog Devices, including:
1. The AD524 has low noise, low nonlinearity, high common mode rejection ratio, and low offset voltage for precision applications.
2. It offers pin-programmable gains of 1, 10, 100, or 1000 and can be configured for other gains between 1 and 1000 with a single external resistor.
3. The amplifier has excellent dynamic performance with a gain bandwidth product of 25MHz, 75kHz full power bandwidth, and 15us settling time for gains up to 100.
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.
This document provides product specifications for the IRFZ44N N-channel enhancement mode trench transistor from Philips Semiconductors. The transistor features very low on-state resistance of 22 mOhms and is intended for use in switched mode power supplies and general purpose switching applications. Key specifications include a maximum drain-source voltage of 55V, drain current of 49A, and junction temperature range of -55°C to 175°C. The document provides detailed electrical characteristics, thermal properties, and mechanical dimensions of the device.
CT contactors can be used to control various electrical loads and circuits. They are available in single-pole, two-pole, three-pole and four-pole configurations ranging from 16 to 100 amps. CT contactors can be equipped with auxiliary functions like indication lights, time delays, and mixed impulse/latched control. They provide reliable operation, with a lifetime of over 5 million switching cycles.
This document provides product specifications for Philips Semiconductors' BT151 series thyristors. The BT151 series includes passivated thyristors in a plastic envelope intended for applications requiring high bidirectional blocking voltage and thermal cycling performance. Key specifications include maximum repetitive peak off-state voltages of 500-800V, average on-state currents of 7.5A, and non-repetitive peak on-state currents of 100A. The document provides detailed ratings, characteristics, diagrams and definitions.
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CT contactors can control heating, ventilation, and other systems. They are available in multiple configurations up to 100A and can be equipped with auxiliary functions like indication and time delay. CT+ contactors provide high performance control for demanding applications with characteristics like low noise, temperature rise, and electromagnetic disturbances. Manually-operated contactors allow overriding automatic control.
Original N-Channel Mosfet 2SK3484 3484 16A 100V TO-252 New Renesas ElectronicsAUTHELECTRONIC
This document provides specifications for the 2SK3484 N-channel MOS field effect transistor (MOSFET) including:
- Electrical characteristics such as on-state resistance, gate cut-off voltage, and input/output capacitances.
- Thermal characteristics such as thermal resistance and power dissipation derating curves.
- Switching characteristics such as turn-on/off delay times and rise/fall times.
- Package drawings and equivalent circuit diagram for the TO-251 and TO-252 packages.
This document describes Switch Mode Power Supply models ranging from 15W to 350W. It provides specifications for each model including input/output ratings, efficiency, protection features, construction details, and standards compliance. The power supplies offer high reliability and stable operation for equipment applications with output voltages of 5V, 12V, 15V, 24V, 36V or 48V.
This document provides information about the AD524 precision instrumentation amplifier from Analog Devices, including:
1. The AD524 has low noise, low nonlinearity, high common mode rejection ratio, and low offset voltage for precision applications.
2. It offers pin-programmable gains of 1, 10, 100, or 1000 and can be configured for other gains between 1 and 1000 with a single external resistor.
3. The amplifier has excellent dynamic performance with a gain bandwidth product of 25MHz, 75kHz full power bandwidth, and 15us settling time for gains up to 100.
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.
This document provides product specifications for the IRFZ44N N-channel enhancement mode trench transistor from Philips Semiconductors. The transistor features very low on-state resistance of 22 mOhms and is intended for use in switched mode power supplies and general purpose switching applications. Key specifications include a maximum drain-source voltage of 55V, drain current of 49A, and junction temperature range of -55°C to 175°C. The document provides detailed electrical characteristics, thermal properties, and mechanical dimensions of the device.
CT contactors can be used to control various electrical loads and circuits. They are available in single-pole, two-pole, three-pole and four-pole configurations ranging from 16 to 100 amps. CT contactors can be equipped with auxiliary functions like indication lights, time delays, and mixed impulse/latched control. They provide reliable operation, with a lifetime of over 5 million switching cycles.
This document provides product specifications for Philips Semiconductors' BT151 series thyristors. The BT151 series includes passivated thyristors in a plastic envelope intended for applications requiring high bidirectional blocking voltage and thermal cycling performance. Key specifications include maximum repetitive peak off-state voltages of 500-800V, average on-state currents of 7.5A, and non-repetitive peak on-state currents of 100A. The document provides detailed ratings, characteristics, diagrams and definitions.
Cataloge schneider contactor ct-dienhathe.vnDien Ha The
CT contactors can control heating, ventilation, and other systems. They are available in multiple configurations up to 100A and can be equipped with auxiliary functions like indication and time delay. CT+ contactors provide high performance control for demanding applications with characteristics like low noise, temperature rise, and electromagnetic disturbances. Manually-operated contactors allow overriding automatic control.
Original N-Channel Mosfet 2SK3484 3484 16A 100V TO-252 New Renesas ElectronicsAUTHELECTRONIC
This document provides specifications for the 2SK3484 N-channel MOS field effect transistor (MOSFET) including:
- Electrical characteristics such as on-state resistance, gate cut-off voltage, and input/output capacitances.
- Thermal characteristics such as thermal resistance and power dissipation derating curves.
- Switching characteristics such as turn-on/off delay times and rise/fall times.
- Package drawings and equivalent circuit diagram for the TO-251 and TO-252 packages.
This document describes Switch Mode Power Supply models ranging from 15W to 350W. It provides specifications for each model including input/output ratings, efficiency, protection features, construction details, and standards compliance. The power supplies offer high reliability and stable operation for equipment applications with output voltages of 5V, 12V, 15V, 24V, 36V or 48V.
This document provides specifications for the μA723 precision voltage regulator integrated circuit, including:
- Electrical characteristics such as input/output voltage ranges, current limits, and temperature stability.
- Application information such as resistor values needed for standard output voltages and formulas for calculating intermediate voltages.
- A functional block diagram and schematic showing the internal components and typical external connections.
- Packaging and temperature rating options for the chip in plastic DIP and small outline packages.
This document provides specifications for Solid State Devices Inc.'s SED45 series super Schottky rectifiers for 25-35 volt applications. Key details include: forward voltage drops as low as 0.38V at 75C, reverse leakage currents up to 150mA at 175C, junction capacitances from 1450-3750pF depending on voltage, and case outlines for surface mountable packages with or without leads. All specifications are subject to change without notification and system configuration drawings should be reviewed by SSDI prior to release.
The document describes the EL4093, a 300MHz DC-restored video amplifier subsystem. It contains a current feedback amplifier (CFA) and sample and hold amplifier designed to stabilize video performance. When the HOLD input is low, the sample and hold can be used as a general purpose op amp. When HOLD goes high, the sample and hold stores a correction voltage to maintain DC correction during the subsequent video scan line. The device has applications in video equipment and restoration amplifiers, with features including high bandwidth, low power consumption, and TTL-compatible inputs. It is packaged in 16-pin DIP and SOIC packages.
The document summarizes specifications for Freescale Semiconductor's MRF1535T1 and MRF1535FT1 lateral N-channel broadband RF power MOSFETs. The MOSFETs are designed for frequencies up to 520 MHz and can provide up to 35 watts of output power at 12.5 volts with a power gain of 10 dB and efficiency of 50%. Test circuits and typical performance characteristics are provided for frequency ranges of 135-175 MHz and 450-520 MHz.
The document describes the TPS3305 family of dual processor supervisors. It provides:
- Monitoring of two independent supply voltages like 3.3V/1.8V, 3.3V/2.5V or 3.3V/5V.
- A reset output that is asserted when supply voltage rises above 1.1V or if the monitored sense voltages fall below their threshold.
- An internal watchdog timer that will assert reset if not retriggered within 1.6 seconds.
- Packaging in 8-pin MSOP or SO packages for operation from -40°C to 85°C.
This document provides specifications for the FMA246, a high-gain MMIC amplifier designed for use from 8 to 14 GHz. The 3-stage amplifier requires a single +6V supply and one off-chip component for de-coupling. It offers 30 dB of small-signal gain, 2.5 dB of noise figure, and can deliver up to 19 dBm of output power. Typical applications include use as a general gain block in X-band systems. Electrical specifications including gain, power, return loss and linearity are provided.
The document describes an RF amplifier chip called the INA-34063. It provides the following key details:
- The INA-34063 is a silicon RF amplifier that offers high gain and output power up to 3 GHz. It is packaged in a small SOT-363 package.
- It has wide bandwidth, high linearity, and high reverse isolation, making it suitable as a driver amplifier for applications like cellular, wireless, and satellite systems.
- The chip is fabricated using Agilent's high performance bipolar process to achieve good performance, uniformity, and reliability up to 30 GHz.
- It provides over 18 dB of gain, less than 5 dB of noise figure,
The SN75176A is a bidirectional transceiver that operates from a single 5V supply. It combines a 3-state differential line driver and differential line receiver. The driver can handle loads up to 60mA and features current limiting and thermal shutdown protection. The receiver has a minimum input impedance of 12kΩ and input sensitivity of ±200mV. It is designed for use on multipoint bus lines in noisy environments.
Original P-Channel Mosfet APM4015P APM4015 4015 TO-252 New ANPECAUTHELECTRONIC
Original P-Channel Mosfet APM4015P APM4015 4015 TO-252 New ANPEC
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Original Mosfet L3705N L3705 3705 55V 75A TO-220 NewAUTHELECTRONIC
The document provides specifications for an IRL3705N HEXFET Power MOSFET. Key details include:
- It has a maximum continuous drain current of 89A, drain-source breakdown voltage of 55V, and on-resistance as low as 0.01 ohms.
- It utilizes advanced processing for low resistance and fast switching capabilities. This provides high efficiency and reliability.
- It is available in a TO-220 package suitable for commercial/industrial applications up to 50 watts and features low thermal resistance.
This document provides specifications for the ACPL-C87B/C87A/C870 precision optically isolated voltage sensor. It includes:
- Key features such as high input impedance, wide operating temperature range, and small package size.
- Electrical specifications including gain accuracy of ±0.5% for the ACPL-C87B, input offset voltage, nonlinearity, and temperature drift.
- Recommended operating conditions and absolute maximum ratings.
- Safety and regulatory approval information for worldwide use.
The TL082 is a dual JFET-input operational amplifier that provides high speed and low noise performance. It has an internally trimmed input offset voltage, low input bias current, wide gain bandwidth of 4 MHz, and high slew rate of 13 V/μs. The TL082 can be used in applications such as high speed integrators, sample and hold circuits, and other circuits requiring fast operation and low noise.
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.
Công ty cổ phần Hạo Phương xin gửi đến quý khách hàng Catalog relay Idec gồm đầy đủ các thông tin cơ bản như: thông số kỹ thuật, kích thước, sơ đồ dây….
Tham khảo các dòng Relay Idec thông dụng tại thị trường Việt Nam: RU4S, RU2S, RY4S, RM2S, RJ1S,….
Thiết kế của Relay Idec tinh tế đến từng chi tiết, sản phẩm luôn đảm bảo độ chính xác và chất lượng. Các ổ cắm dễ dàng sử dụng và có thể gắn trên Din rail, panel hoặc PCB.
uA741 General Purpose Operational AmplifierYong Heui Cho
The μA741 operational amplifier is described, including:
1) It is a general-purpose op-amp featuring offset voltage nulling and high common-mode input voltage range, making it suitable for voltage follower applications.
2) It has short-circuit protection, internal frequency compensation for stability without external components, and low power consumption.
3) It is available in various temperature ranges and packaging options.
Voltage to-frequency and frequency-to-voltage converterThe Hoa Nguyen
The document describes a voltage-to-frequency converter (VFC32) that provides an output frequency accurately proportional to its input voltage. It has excellent linearity of ±0.01% at 10kHz and ±0.05% at 100kHz. It can operate up to 500kHz and can be configured as either a voltage-to-frequency converter or frequency-to-voltage converter. It is available in plastic DIP, surface mount, and metal packages with commercial, industrial, and military temperature ranges.
The document summarizes the features and specifications of the AD620 instrumentation amplifier. Key points include:
- The AD620 requires only one external resistor to set gains from 1 to 10,000. It has low power consumption of 1.3mA max and works from ±2.3V to ±18V supplies.
- It has excellent DC performance with 50uV max offset voltage, 0.6uV/°C max drift, and 1.0nA max bias current. Common mode rejection is 100dB min. Noise is also low at 9nV/√Hz input voltage noise.
- Applications include weigh scales, ECG and medical devices, transducers, data acquisition,
Original P-Channel Mosfet IRFR5305TRPBF FR5305 5305 FR530S 55V 31A TO-252 New IRAUTHELECTRONIC
This document summarizes the specifications and characteristics of International Rectifier's HEXFET Power MOSFETs. The MOSFETs feature ultra-low on-resistance, fast switching speeds, and ruggedized designs. They are available in D-Pak and I-Pak surface mount packages and are suitable for a wide variety of applications. Key parameters include continuous drain current up to 31 amps, power dissipation up to 110 watts, and avalanche energy rating of 280 millijoules.
This document provides information on the SE30A series brushless servo amplifiers manufactured by Electromate. The key points are:
1) The SE30A series amplifiers are small, surface-mount brushless servo amplifiers available in various current ratings for driving 3-phase sine wave motors.
2) They have features like optical isolation, DIP switch selectable modes, regenerative braking, and encoder feedback for sinusoidal commutation.
3) The amplifiers require a single DC power supply and have protection against overloads and faults. They can be used with digital controllers or standalone.
This document provides information on the SE30A series brushless servo amplifiers manufactured by Electromate. The key points are:
1) The SE30A series amplifiers are small, surface-mount brushless servo amplifiers for driving 3-phase sine wave motors.
2) They have various operating modes that can be selected with DIP switches including current mode, encoder velocity mode, external velocity mode, and tachometer mode.
3) The amplifiers provide features like optical isolation, overvoltage and overcurrent protection, and adjustable current limits and loop gains.
This document provides specifications for the μA723 precision voltage regulator integrated circuit, including:
- Electrical characteristics such as input/output voltage ranges, current limits, and temperature stability.
- Application information such as resistor values needed for standard output voltages and formulas for calculating intermediate voltages.
- A functional block diagram and schematic showing the internal components and typical external connections.
- Packaging and temperature rating options for the chip in plastic DIP and small outline packages.
This document provides specifications for Solid State Devices Inc.'s SED45 series super Schottky rectifiers for 25-35 volt applications. Key details include: forward voltage drops as low as 0.38V at 75C, reverse leakage currents up to 150mA at 175C, junction capacitances from 1450-3750pF depending on voltage, and case outlines for surface mountable packages with or without leads. All specifications are subject to change without notification and system configuration drawings should be reviewed by SSDI prior to release.
The document describes the EL4093, a 300MHz DC-restored video amplifier subsystem. It contains a current feedback amplifier (CFA) and sample and hold amplifier designed to stabilize video performance. When the HOLD input is low, the sample and hold can be used as a general purpose op amp. When HOLD goes high, the sample and hold stores a correction voltage to maintain DC correction during the subsequent video scan line. The device has applications in video equipment and restoration amplifiers, with features including high bandwidth, low power consumption, and TTL-compatible inputs. It is packaged in 16-pin DIP and SOIC packages.
The document summarizes specifications for Freescale Semiconductor's MRF1535T1 and MRF1535FT1 lateral N-channel broadband RF power MOSFETs. The MOSFETs are designed for frequencies up to 520 MHz and can provide up to 35 watts of output power at 12.5 volts with a power gain of 10 dB and efficiency of 50%. Test circuits and typical performance characteristics are provided for frequency ranges of 135-175 MHz and 450-520 MHz.
The document describes the TPS3305 family of dual processor supervisors. It provides:
- Monitoring of two independent supply voltages like 3.3V/1.8V, 3.3V/2.5V or 3.3V/5V.
- A reset output that is asserted when supply voltage rises above 1.1V or if the monitored sense voltages fall below their threshold.
- An internal watchdog timer that will assert reset if not retriggered within 1.6 seconds.
- Packaging in 8-pin MSOP or SO packages for operation from -40°C to 85°C.
This document provides specifications for the FMA246, a high-gain MMIC amplifier designed for use from 8 to 14 GHz. The 3-stage amplifier requires a single +6V supply and one off-chip component for de-coupling. It offers 30 dB of small-signal gain, 2.5 dB of noise figure, and can deliver up to 19 dBm of output power. Typical applications include use as a general gain block in X-band systems. Electrical specifications including gain, power, return loss and linearity are provided.
The document describes an RF amplifier chip called the INA-34063. It provides the following key details:
- The INA-34063 is a silicon RF amplifier that offers high gain and output power up to 3 GHz. It is packaged in a small SOT-363 package.
- It has wide bandwidth, high linearity, and high reverse isolation, making it suitable as a driver amplifier for applications like cellular, wireless, and satellite systems.
- The chip is fabricated using Agilent's high performance bipolar process to achieve good performance, uniformity, and reliability up to 30 GHz.
- It provides over 18 dB of gain, less than 5 dB of noise figure,
The SN75176A is a bidirectional transceiver that operates from a single 5V supply. It combines a 3-state differential line driver and differential line receiver. The driver can handle loads up to 60mA and features current limiting and thermal shutdown protection. The receiver has a minimum input impedance of 12kΩ and input sensitivity of ±200mV. It is designed for use on multipoint bus lines in noisy environments.
Original P-Channel Mosfet APM4015P APM4015 4015 TO-252 New ANPECAUTHELECTRONIC
Original P-Channel Mosfet APM4015P APM4015 4015 TO-252 New ANPEC
https://authelectronic.com/original-p-channel-mosfet-apm4015p-apm4015-4015-to-252-new-anpec
Original Mosfet L3705N L3705 3705 55V 75A TO-220 NewAUTHELECTRONIC
The document provides specifications for an IRL3705N HEXFET Power MOSFET. Key details include:
- It has a maximum continuous drain current of 89A, drain-source breakdown voltage of 55V, and on-resistance as low as 0.01 ohms.
- It utilizes advanced processing for low resistance and fast switching capabilities. This provides high efficiency and reliability.
- It is available in a TO-220 package suitable for commercial/industrial applications up to 50 watts and features low thermal resistance.
This document provides specifications for the ACPL-C87B/C87A/C870 precision optically isolated voltage sensor. It includes:
- Key features such as high input impedance, wide operating temperature range, and small package size.
- Electrical specifications including gain accuracy of ±0.5% for the ACPL-C87B, input offset voltage, nonlinearity, and temperature drift.
- Recommended operating conditions and absolute maximum ratings.
- Safety and regulatory approval information for worldwide use.
The TL082 is a dual JFET-input operational amplifier that provides high speed and low noise performance. It has an internally trimmed input offset voltage, low input bias current, wide gain bandwidth of 4 MHz, and high slew rate of 13 V/μs. The TL082 can be used in applications such as high speed integrators, sample and hold circuits, and other circuits requiring fast operation and low noise.
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.
Công ty cổ phần Hạo Phương xin gửi đến quý khách hàng Catalog relay Idec gồm đầy đủ các thông tin cơ bản như: thông số kỹ thuật, kích thước, sơ đồ dây….
Tham khảo các dòng Relay Idec thông dụng tại thị trường Việt Nam: RU4S, RU2S, RY4S, RM2S, RJ1S,….
Thiết kế của Relay Idec tinh tế đến từng chi tiết, sản phẩm luôn đảm bảo độ chính xác và chất lượng. Các ổ cắm dễ dàng sử dụng và có thể gắn trên Din rail, panel hoặc PCB.
uA741 General Purpose Operational AmplifierYong Heui Cho
The μA741 operational amplifier is described, including:
1) It is a general-purpose op-amp featuring offset voltage nulling and high common-mode input voltage range, making it suitable for voltage follower applications.
2) It has short-circuit protection, internal frequency compensation for stability without external components, and low power consumption.
3) It is available in various temperature ranges and packaging options.
Voltage to-frequency and frequency-to-voltage converterThe Hoa Nguyen
The document describes a voltage-to-frequency converter (VFC32) that provides an output frequency accurately proportional to its input voltage. It has excellent linearity of ±0.01% at 10kHz and ±0.05% at 100kHz. It can operate up to 500kHz and can be configured as either a voltage-to-frequency converter or frequency-to-voltage converter. It is available in plastic DIP, surface mount, and metal packages with commercial, industrial, and military temperature ranges.
The document summarizes the features and specifications of the AD620 instrumentation amplifier. Key points include:
- The AD620 requires only one external resistor to set gains from 1 to 10,000. It has low power consumption of 1.3mA max and works from ±2.3V to ±18V supplies.
- It has excellent DC performance with 50uV max offset voltage, 0.6uV/°C max drift, and 1.0nA max bias current. Common mode rejection is 100dB min. Noise is also low at 9nV/√Hz input voltage noise.
- Applications include weigh scales, ECG and medical devices, transducers, data acquisition,
Original P-Channel Mosfet IRFR5305TRPBF FR5305 5305 FR530S 55V 31A TO-252 New IRAUTHELECTRONIC
This document summarizes the specifications and characteristics of International Rectifier's HEXFET Power MOSFETs. The MOSFETs feature ultra-low on-resistance, fast switching speeds, and ruggedized designs. They are available in D-Pak and I-Pak surface mount packages and are suitable for a wide variety of applications. Key parameters include continuous drain current up to 31 amps, power dissipation up to 110 watts, and avalanche energy rating of 280 millijoules.
This document provides information on the SE30A series brushless servo amplifiers manufactured by Electromate. The key points are:
1) The SE30A series amplifiers are small, surface-mount brushless servo amplifiers available in various current ratings for driving 3-phase sine wave motors.
2) They have features like optical isolation, DIP switch selectable modes, regenerative braking, and encoder feedback for sinusoidal commutation.
3) The amplifiers require a single DC power supply and have protection against overloads and faults. They can be used with digital controllers or standalone.
This document provides information on the SE30A series brushless servo amplifiers manufactured by Electromate. The key points are:
1) The SE30A series amplifiers are small, surface-mount brushless servo amplifiers for driving 3-phase sine wave motors.
2) They have various operating modes that can be selected with DIP switches including current mode, encoder velocity mode, external velocity mode, and tachometer mode.
3) The amplifiers provide features like optical isolation, overvoltage and overcurrent protection, and adjustable current limits and loop gains.
The document describes the SE30A series of brushless servo amplifiers made by Electromate. The series includes models that can provide peak currents of 10, 20, or 30 amps from power supplies ranging from 20-80V to 60-400V. The amplifiers use surface mount technology and have small size. They can be controlled in various modes including current, encoder velocity, external velocity, and tachometer. Connectors and pinouts are described for interfacing motors, encoders, signals and power.
This document provides specifications for the AD9883A analog interface chip from Analog Devices. It includes:
- Key features of the AD9883A such as its 140 MSPS conversion rate, 300 MHz bandwidth, and full sync processing capabilities.
- Tables listing the electrical specifications and performance parameters of the AD9883A, including accuracy, input/output voltage levels, power requirements, and thermal characteristics.
- A block diagram showing the main functional blocks of the AD9883A including the ADC, PLL, gain/offset controls, and serial interface.
- Descriptions of the intended applications for the AD9883A in devices like LCD monitors, plasma displays, and digital TV.
The document describes the SE30A Series brushless servo amplifiers made by Electromate. The series includes models SE10A8, SE10A20, SE10A40, SE30A8, SE30A20, and SE30A40. The amplifiers are small, surface-mount devices that drive brushless motors with 3-phase sine wave current generated from an encoder. They have features like optical isolation, DIP switch selectable modes, regenerative braking, and overcurrent protection.
The document describes radio receivers and repeaters that use EnOcean radio technology to switch electrical consumers via radio signals from switches. The receivers come in one-channel or four-channel versions and can accept up to 10 transmitters per channel. The repeater is used to extend the radio range between switches and receivers. The devices operate at 868.3 MHz frequency and 24V voltage, have LED indicators, snap-mount on DIN rails, and comply with relevant EMC standards. Technical specifications, dimensions, and ordering information are provided.
This document provides specifications for the SPF-1G-BX20D-55/31-T02#151005 1000BASE 20KM SFP transceiver module from Guilin GLsun Science and Tech Group Co. The module supports transmission distances of up to 20km over single mode fiber at data rates of 1.25Gbps or 1.0625Gbps using TX wavelengths of 1550nm and 1310nm. Key features include an integrated DFB laser transmitter, PIN photodiode receiver, and MCU control unit. Electrical, optical, mechanical and environmental specifications are provided along with pinout diagrams and ordering information.
ANAVIEW's Smallest Class D OEM Amplifier BoardHTCS LLC
The Credit Card Size, DC powered (10VDC to 20VDC) Class-D amp is the ideal solution for battery powered PA systems. 2x45 Watts RMS into 6 Ohms and it has very low THD in the Audio frequency band.
The document describes the SE30A series of brushless servo amplifiers. It includes models SE10A8, SE10A20, SE10A40, SE30A8, SE30A20, and SE30A40. The amplifiers are designed to drive brushless motors with 3 phase sine wave current using encoder feedback for sinusoidal commutation. They have features like surface mount technology, small size, low cost, optical isolation, and DIP switch selectable operating modes. The document provides detailed specifications, pinout diagrams, switch and potentiometer functions, and application notes for setup and use.
The document describes the SE30A series of brushless servo amplifiers. Key points:
- The SE30A series includes several models that can drive brushless motors with 3 phase sine wave current from an encoder.
- Features include surface mount technology, small size, optical isolation, DIP switch selectable operating modes, regenerative braking, and protection from overloads.
- Operating modes can be current mode, encoder velocity mode, external velocity mode, or tachometer mode using the DIP switches.
- Specifications include voltage and current ratings, switching frequency, connectors, and temperature range for the power stage.
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2. 2
®
INA121
SPECIFICATIONS: VS = ±15V
At TA = +25°C, VS = ±15V, RL = 10kΩ, and IA reference = 0V, unless otherwise noted.
✻ Specification same as INA121P, U.
NOTE: (1) Temperature coefficient of the “Internal Resistor” in the gain equation. Does not include TCR of gain-setting resistor, RG.
INA121P, U INA121PA, UA
PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS
INPUT
Offset Voltage, RTI ±200±200/G ±500±500/G ±300±200/G ±1000±1000/G µV
vs Temperature ±2±2/G ±5±20/G ✻ ±15±20/G µV/°C
vs Power Supply VS = ±2.25V to ±18V ±5±20/G ±50±150/G ✻ ✻ µV/V
Long-Term Stability ±0.5 ✻ µV/mo
Impedance, Differential 1012 || 1 ✻ Ω || pF
Common-Mode VO = 0V 1012 || 12 ✻ Ω || pF
Input Voltage Range See Text and Typical Curves ✻
Safe Input Voltage ±40 ✻ V
Common-Mode Rejection VCM = –12.5V to 13.5V
G = 1 78 86 72 ✻ dB
G = 10 91 100 85 ✻ dB
G = 100 96 106 90 ✻ dB
G = 1000 106 ✻ dB
BIAS CURRENT VCM = 0V ±4 ±50 ✻ ✻ pA
vs Temperature See Typical Curve ✻
Offset Current ±0.5 ✻ pA
vs Temperature See Typical Curve ✻
NOISE, RTI RS = 0Ω
Voltage Noise: f = 10Hz G = 100 30 ✻ nV/√Hz
f = 100Hz G = 100 21 ✻ nV/√Hz
f = 1kHz G = 100 20 ✻ nV/√Hz
f = 0.1Hz to 10Hz G = 100 1 ✻ µVp-p
Current Noise: f = 1kHz 1 ✻ fA/√Hz
GAIN
Gain Equation 1 + (50kΩ/RG) ✻ V/V
Range of Gain 1 10,000 ✻ ✻ V/V
Gain Error VO = –14V to 13.5V
G = 1 ±0.01 ±0.05 ✻ ±0.1 %
G = 10 ±0.03 ±0.4 ✻ ±0.5 %
G = 100 ±0.05 ±0.5 ✻ ±0.7 %
G = 1000 ±0.5 ✻ %
Gain vs Temperature(1) G = 1 ±1 ±10 ✻ ✻ ppm/°C
G > 1 ±25 ±100 ✻ ✻ ppm/°C
Nonlinearity VO = –14V to 13.5V
G = 1 ±0.0002 ±0.001 ✻ ±0.002 % of FSR
G = 10 ±0.0015 ±0.005 ✻ ±0.008 % of FSR
G = 100 ±0.0015 ±0.005 ✻ ±0.008 % of FSR
G = 1000 ±0.002 ✻ % of FSR
OUTPUT
Voltage: Positive RL = 100kΩ (V+)–0.9 ✻ V
Negative RL = 100kΩ (V–)+0.15 ✻ V
Positive RL = 10kΩ (V+)–1.5 (V+)–0.9 ✻ ✻ V
Negative RL = 10kΩ (V–)+1 (V–)+0.25 ✻ ✻ V
Capacitance Load Drive 1000 ✻ pF
Short-Circuit Current ±14 ✻ mA
FREQUENCY RESPONSE
Bandwidth, –3dB G = 1 600 ✻ kHz
G = 10 300 ✻ kHz
G = 100 50 ✻ kHz
G = 1000 5 ✻ kHz
Slew Rate VO = ±10V, G ≤ 10 0.7 ✻ V/µs
Settling Time, 0.01% G = 1 to 10 20 ✻ µs
G = 100 35 ✻ µs
G = 1000 260 ✻ µs
Overload Recovery 50% Input Overload 5 ✻ µs
POWER SUPPLY
Voltage Range ±2.25 ±15 ±18 ✻ ✻ ✻ V
Quiescent Current IO = 0V ±450 ±525 ✻ ✻ µA
TEMPERATURE RANGE
Specification –40 85 ✻ ✻ °C
Operating –55 125 ✻ ✻ °C
Storage –55 125 ✻ ✻ °C
Thermal Resistance, θJA
8-Lead DIP 100 ✻ °C/W
SO-8 Surface Mount 150 ✻ °C/W
3. 3
®
INA121
PIN CONFIGURATION ELECTROSTATIC
DISCHARGE SENSITIVITY
This integrated circuit can be damaged by ESD. Burr-Brown
recommends that all integrated circuits be handled with
appropriate precautions. Failure to observe proper handling
and installation procedures can cause damage.
ESD damage can range from subtle performance degradation
to complete device failure. Precision integrated circuits may
be more susceptible to damage because very small parametric
changes could cause the device not to meet its published
specifications.
Supply Voltage .................................................................................. ±18V
Analog Input Voltage Range ............................................................. ±40V
Output Short-Circuit (to ground) .............................................. Continuous
Operating Temperature ................................................. –55°C to +125°C
Storage Temperature..................................................... –55°C to +125°C
Junction Temperature .................................................................... +150°C
Lead Temperature (soldering, 10s) ............................................... +300°C
NOTE: (1) Stresses above these ratings may cause permanent damage.
Exposure to absolute maximum conditions for extended periods may degrade
device reliability.
ABSOLUTE MAXIMUM RATINGS(1)
The information provided herein is believed to be reliable; however, BURR-BROWN assumes no responsibility for inaccuracies or omissions. BURR-BROWN assumes
no responsibility for the use of this information, and all use of such information shall be entirely at the user’s own risk. Prices and specifications are subject to change
without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. BURR-BROWN does not authorize or warrant
any BURR-BROWN product for use in life support devices and/or systems.
Top View 8-Pin DIP and SO-8
RG
V–
IN
V+
IN
V–
RG
V+
VO
Ref
1
2
3
4
8
7
6
5
Top View
PACKAGE SPECIFIED
DRAWING TEMPERATURE PACKAGE ORDERING TRANSPORT
PRODUCT PACKAGE NUMBER(1) RANGE MARKING NUMBER(2) MEDIA
Single
INA121P 8-Pin DIP 006 –40°C to +85°C INA121P INA121P Rails
INA121PA 8-Pin DIP 006 –40°C to +85°C INA121PA INA121PA Rails
INA121U SO-8 Surface-Mount 182 –40°C to +85°C INA121U INA121U Rails
" " " " " INA121U/2K5 Tape and Reel
INA121UA SO-8 Surface-Mount 182 –40°C to +85°C INA121UA INA121UA Rails
" " " " " INA121UA/2K5 Tape and Reel
NOTES: (1) For detailed drawing and dimension table, please see end of data sheet, or Appendix C of Burr-Brown IC Data Book. (2) Models with a slash (/) are
available only in Tape and Reel in the quantities indicated (e.g., /2K5 indicates 2500 devices per reel). Ordering 2500 pieces of “INA121U/2K5” will get a single
2500-piece Tape and Reel. For detailed Tape and Reel mechanical information, refer to Appendix B of Burr-Brown IC Data Book.
PACKAGE/ORDERING INFORMATION
4. 4
®
INA121
TYPICAL PERFORMANCE CURVES
At TA = +25°C, VS = ±15V, unless otherwise noted.
NEGATIVE POWER SUPPLY REJECTION
vs FREQUENCY
Frequency (Hz)
Power
Supply
Rejection
(dB)
10 100 10k 100k 1M
1k
120
100
80
60
40
20
0
G = 1000V/V
G = 1V/V
G = 10V/V
G = 100V/V
INPUT COMMON-MODE RANGE
vs OUTPUT VOLTAGE, VS = ±15V
Output Voltage (V)
Common-Mode
Voltage
(V)
–15 –10 0 5 15
–5
15
10
5
0
–5
–10
–15
10
VD/2
+
–
+
–
+
VCM
VO
VD/2 Ref
–15V
+15V
G = 1
G ≥ 10
POSITIVE POWER SUPPLY REJECTION
vs FREQUENCY
Frequency (Hz)
Power
Supply
Rejection
(dB)
10 100 10k 100k 1M
1k
120
100
80
60
40
20
0
G = 1000V/V
G = 1V/V
G = 10V/V
G = 100V/V
COMMON-MODE REJECTION
vs FREQUENCY
Frequency (Hz)
Common-Mode
Rejection
(dB)
10 100 10k 100k 1M
1k
120
100
80
60
40
20
0
G = 1000V/V
G = 1V/V
G = 10V/V
G = 100V/V
INPUT COMMON-MODE RANGE
vs OUTPUT VOLTAGE, VS = ±5V, ±2.5V
Output Voltage (V)
Common-Mode
Voltage
(V)
–5
5
4
3
2
1
0
–1
–2
–3
–4
–5
–4 –3 –2 –1 0 1 2 3 4 5
VS = ±5V
VS = ±2.5V
G = 1
G ≥ 10
G = 1
G ≥ 10
GAIN vs FREQUENCY
Frequency (Hz)
Gain
(dB)
1k 10k 1M 10M
100k
60
50
40
30
20
10
0
–10
–20
G = 1000V/V
G = 100V/V
G = 10V/V
G = 1V/V
5. 5
®
INA121
INPUT BIAS CURRENT vs TEMPERATURE
Temperature (°C)
Bias
Current
(pA)
10k
1k
100
10
1
0.1
0.01
–75 –50 –25 0 25 50 75 100 125
IB
IOS
TYPICAL PERFORMANCE CURVES (CONT)
At TA = +25°C, VS = ±15V, unless otherwise noted.
INPUT OVER-VOLTAGE V/I CHARACTERISTICS
1
0.8
0.6
0.4
0.2
0
–0.2
–0.4
–0.6
–0.8
–1
Input
Current
(mA)
Input Voltage (V)
–50 –40 –30 –20 –10 10 20 30 40
0 50
G = 1V/V
G = 1000V/V
G = 1V/V
Flat region represents
normal linear operation.
VIN
IIN
–15V
+15V
G = 1000V/V
QUIESCENT CURRENT AND SLEW RATE
vs TEMPERATURE
500
475
450
425
400
375
–75 –50 –25 0 25 50 75 100 125
Temperature (°C)
Quiescent
Current
(µA)
1.4
1.2
1
0.8
0.6
0.4
Slew
Rate
(V/µs)
SR
IQ
SHORT-CIRCUIT CURRENT
vs TEMPERATURE
±15
±14
±13
±12
±11
±10
–75 –50 –25 0 25 50 75 100 125
Temperature (°C)
Short-Circuit
Current
(µA)
+ISC
–ISC
SETTLING TIME vs GAIN
1000
100
10
1 10 100 1000
Gain (V/V)
Settling
Time
(µs)
0.01%
0.1%
INPUT BIAS CURRENT
vs COMMON-MODE INPUT VOLTAGE
1m
100µ
10µ
10p
1p
–10µ
–100µ
–1m
–20 –15 –10 –5 0 5 10 15 20
Common-Mode Voltage (V)
Input
Bias
Current
(A)
6. 6
®
INA121
TYPICAL PERFORMANCE CURVES (CONT)
At TA = +25°C, VS = ±15V, unless otherwise noted.
0.5µV
VOLTAGE NOISE 0.1 TO 10Hz
INPUT-REFERRED, G ≥ 100
1s/div
OUTPUT VOLTAGE SWING vs OUTPUT CURRENT
V+
(V+) –0.3
(V+) –0.6
(V+) –0.9
(V+) –1.2
(V+) –1.5
(V–) +1.5
(V–) +1.2
(V–) +0.9
(V–) +0.6
(V–) +0.3
(V–)
0 ±2 ±4 ±6 ±8 ±10
Output Current (mA)
Output
Voltage
Swing
(V)
+125°C
+125°C
+85°C
+85°C
–40°C, –55°C
–40°C, –55°C
+25°C
+25°C
INPUT OFFSET VOLTAGE WARM-UP
10
8
6
4
2
0
–2
–4
–6
–8
–10
0 100 200 300 400 500
Time (µs)
Offset
Voltage
Change
(µV)
INPUT OFFSET VOLTAGE DRIFT
PRODUCTION DISTRIBUTION
Percent
of
Units
(%)
Offset Voltage Drift (µV/°C)
18
16
14
12
10
8
6
4
2
0
Typical production
distribution of
packaged units.
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5 8 8.5 9 9.5 10
MAXIMUM OUTPUT VOLTAGE vs FREQUENCY
30
25
20
15
10
5
0
100 1k 10k 100k 1M
Frequency (Hz)
Peak-to-Peak
Output
Voltage
(Vp-p)
G = 1000
G = 10 to 100
G = 1
INPUT-REFERRED NOISE VOLTAGE
vs FREQUENCY
Frequency (Hz)
Voltage
Noise
(nV/√Hz)
1 10 1k 10k
100
1000
100
10
1
G = 1
G = 10
G = 1000
(BW Limit)
G = 100
7. 7
®
INA121
SMALL-SIGNAL STEP RESPONSE
(G = 1, 10)
TYPICAL PERFORMANCE CURVES (CONT)
At TA = +25°C, VS = ±15V, unless otherwise noted.
SMALL-SIGNAL STEP RESPONSE
(G = 100, 1000)
LARGE-SIGNAL STEP RESPONSE
(G = 1, 10)
LARGE-SIGNAL STEP RESPONSE
(G = 100, 1000)
10µs/div
G = 10
50mV/div
G = 1
100µs/div
G = 100
50mV/div
G = 1000
100µs/div
G = 10
5V/div
G = 1
G = 1000
5V/div
G = 100
100µs/div
8. 8
®
INA121
APPLICATION INFORMATION
Figure 1 shows the basic connections required for operation
of the INA121. Applications with noisy or high impedance
power supplies may require decoupling capacitors close to
the device pins as shown.
The output is referred to the output reference (Ref) terminal
which is normally grounded. This must be a low-impedance
connection to assure good common-mode rejection. A resis-
tance of 8Ω in series with the Ref pin will cause a typical
device to degrade to approximately 80dB CMR (G = 1).
SETTING THE GAIN
Gain of the INA121 is set by connecting a single external
resistor, RG, connected between pins 1 and 8:
Commonly used gains and resistor values are shown in
Figure 1.
(1)
G = 1+
50kΩ
RG
The 50kΩ term in Equation 1 comes from the sum of the two
internal feedback resistors of A1 and A2. These on-chip
metal film resistors are laser trimmed to accurate absolute
values. The accuracy and temperature coefficient of these
resistors are included in the gain accuracy and drift specifi-
cations of the INA121.
The stability and temperature drift of the external gain
setting resistor, RG, also affects gain. RG’s contribution to
gain accuracy and drift can be directly inferred from the gain
equation (1). Low resistor values required for high gain can
make wiring resistance important. Sockets add to the wiring
resistance which will contribute additional gain error (possi-
bly an unstable gain error) in gains of approximately 100 or
greater.
DYNAMIC PERFORMANCE
The typical performance curve “Gain vs Frequency” shows
that, despite its low quiescent current, the INA121 achieves
wide bandwidth, even at high gain. This is due to the
current-feedback topology of the INA121. Settling time also
remains excellent at high gain.
A1
A2
A3
6
40kΩ
40kΩ
40kΩ
40kΩ
7
4
3
8
1
2
VIN
VIN
RG
V+
V–
INA121
G = 1 +
50kΩ
RG
–
+
5
Over-Voltage
Protection
25kΩ
25kΩ
Over-Voltage
Protection
Load
VO = G • (VIN – VIN)
+ –
0.1µF
0.1µF
+
–
VO
RG
Also drawn in simplified form:
INA121
Ref
VO
VIN
–
VIN
+
Ref
DESIRED RG NEAREST 1% RG
GAIN (Ω) (Ω)
1 NC NC
2 50.00k 49.9k
5 12.50k 12.4k
10 5.556k 5.62k
20 2.632k 2.61k
50 1.02k 1.02k
100 505.1 511
200 251.3 249
500 100.2 100
1000 50.05 49.9
2000 25.01 24.9
5000 10.00 10
10000 5.001 4.99
NC: No Connection.
FIGURE 1. Basic Connections.
9. 9
®
INA121
INA121
1MΩ
1MΩ
INA121
10kΩ
Thermocouple
INA121
Center-tap provides
bias current return.
INA121
Bridge resistance provides
bias current return.
Crystal or
Ceramic
Transducer
Bridge
VREF
The INA121 provides excellent rejection of high frequency
common-mode signals. The typical performance curve,
“Common-Mode Rejection vs Frequency” shows this be-
havior. If the inputs are not properly balanced, however,
common-mode signals can be converted to differential sig-
nals. Run the VIN and VIN connections directly adjacent each
other, from the source signal all the way to the input pins. If
possible use a ground plane under both input traces. Avoid
running other potentially noisy lines near the inputs.
NOISE AND ACCURACY PERFORMANCE
The INA121’s FET input circuitry provides low input bias
current and high speed. It achieves lower noise and higher
accuracy with high impedance sources. With source imped-
ances of 2kΩ to 50kΩ the INA114, INA128, or INA129 may
provide lower offset voltage and drift. For very low source
impedance (≤1kΩ), the INA103 may provide improved
accuracy and lower noise. At very high source impedances
(> 1MΩ) the INA116 is recommended.
OFFSET TRIMMING
The INA121 is laser trimmed for low offset voltage and
drift. Most applications require no external offset adjust-
ment. Figure 2 shows an optional circuit for trimming the
output offset voltage. The voltage applied to Ref terminal is
summed at the output. The op amp buffer provides low
impedance at the Ref terminal to preserve good common-
mode rejection. Trim circuits with higher source impedance
should be buffered with an op amp follower circuit to assure
low impedance on the Ref pin.
Input circuitry must provide a path for this input bias current
if the INA121 is to operate properly. Figure 3 shows various
provisions for an input bias current path. Without a bias
current return path, the inputs will float to a potential which
exceeds the common-mode range of the INA121 and the
input amplifiers will saturate.
If the differential source resistance is low, the bias current
return path can be connected to one input (see the thermo-
couple example in Figure 3). With higher source impedance,
using two resistors provides a balanced input with possible
advantages of lower input offset voltage due to bias current
and better high-frequency common-mode rejection.
+ –
INPUT BIAS CURRENT RETURN PATH
The input impedance of the INA121 is extremely high—
approximately 1012Ω. However, a path must be provided for
the input bias current of both inputs. This input bias current
is typically 4pA. High input impedance means that this input
bias current changes very little with varying input voltage.
INA121
VIN
VIN
RG
–
+
10kΩ(1)
VO
OPA277
Ref
±10mV
Adjustment Range
100Ω(1)
100Ω(1)
100µA
1/2 REF200
100µA
1/2 REF200
V+
V–
NOTE: (1) For wider trim range required
in high gains, scale resistor values larger
INPUT COMMON-MODE RANGE
The linear input voltage range of the input circuitry of the
INA121 is from approximately 1.2V below the positive
supply voltage to 2.1V above the negative supply. A differ-
ential input voltage causes the output voltage to increase.
The linear input range, however, will be limited by the
output voltage swing of amplifiers A1 and A2. So the linear
common-mode input range is related to the output voltage of
the complete amplifier. This behavior also depends on sup-
ply voltage—see typical performance curve “Input Com-
mon-Mode Range vs Output Voltage”.
FIGURE 3. Providing an Input Common-Mode Current Path.
FIGURE 2. Optional Trimming of Output Offset Voltage.
10. 10
®
INA121
INA121
RG
100Ω
VO
+10V
Bridge
G = 500
Ref
A1
A2
A3
40kΩ
40kΩ
40kΩ
40kΩ
RG
V+
V–
INA121
VO = G • VD
G = 1 +
50kΩ
RG
25kΩ
25kΩ
VCM –
G • VD
2
VD
2
VD
2
VCM
VCM +
G • VD
2
A combination of common-mode and differential input
voltage can cause the output of A1 or A2 to saturate. Figure
4 shows the output voltage swing of A1 and A2 expressed in
terms of a common-mode and differential input voltages.
For applications where input common-mode range must be
maximized, limit the output voltage swing by connecting the
INA121 in a lower gain (see performance curve “Input
Common-Mode Voltage Range vs Output Voltage”). If
necessary, add gain after the INA121 to increase the voltage
swing.
Input-overload can produce an output voltage that appears
normal. For example, if an input overload condition drives
both input amplifiers to their positive output swing limit, the
difference voltage measured by the output amplifier will be
near zero. The output of A3 will be near 0V even though both
inputs are overloaded.
LOW VOLTAGE OPERATION
The INA121 can be operated on power supplies as low as
±2.25V. Performance remains excellent with power supplies
ranging from ±2.25V to ±18V. Most parameters vary only
slightly throughout this supply voltage range—see typical
performance curves. Operation at very low supply voltage
requires careful attention to assure that the input voltages
remain within their linear range. Voltage swing requirements
of internal nodes limit the input common-mode range with low
power supply voltage. Typical performance curves, “Input
Common-Mode Range vs Output Voltage” show the range of
linear operation for ±15V, ±5V, and ±2.5V supplies.
INPUT FILTERING
The INA121’s FET input allows use of an R/C input filter
without creating large offsets due to input bias current.
Figure 5 shows proper implementation of this input filter to
preserve the INA121’s excellent high frequency common-
mode rejection. Mismatch of the common-mode input time
constant (R1C1 and R2C2), either from stray capacitance or
mismatched values, causes a high frequency common-mode
signal to be converted to a differential signal. This degrades
common-mode rejection. The differential input capacitor,
C3, reduces the bandwidth and mitigates the effects of
mismatch in C1 and C2. Make C3 much larger than C1 and
C2. If properly matched, C1 and C2 also improve ac CMR.
FIGURE 4. Voltage Swing of A1 and A2.
FIGURE 5. Input Low-Pass Filter. FIGURE 6. Bridge Transducer Amplifier.
f−3 d B
= 1
4 π R1
C 3
+
C1
2
INA121 VO
VIN
–
VIN
+
R1
R2
C3
C1
C2 R1 = R2
C1 = C2
C3 ≈ 10C1
FET input allows use
of large resistors and
small capacitors.
Ref
11. 11
®
INA121
INA121
Transducer
C1
C2
Null
R2
R1
RG VO
Ref
VAC
INA121
OPA277
C1
50nF
RG R2
RG
Make G ≤ 10 where G = 1 + 50k
Load
VIN
G • R2
IL =
R1
10kΩ
VIN
Ref
INA121
RG
VO
C1
0.1µF
OPA277
Ref R1
1MΩ
f–3dB =
1
2πR1C1
= 1.59Hz
VIN
+
–
INA121 ISO124
±6V to ±18V
Isolated Power
±15V
Ref
VIN
–
VIN
+
VO
Isolated
Common
V+ V–
FIGURE 8. Galvanically Isolated Instrumentation
Amplifier.
FIGURE 7. High-Pass Input Filter.
FIGURE 10. Voltage Controlled Current Source.
FIGURE 9. AC-Coupled Instrumentation Amplifier.
INA121
C1
C2
R1 R2
VO
2πR1C1
1
fc =
NOTE: To preserve good low frequency CMR,
make R1 = R2 and C1 = C2.
RG
Ref
FIGURE 11. Capacitive Bridge Transducer Circuit.
12. 12
®
INA121
INA121
RG/2
RG = 5.6kΩ
VO
LA
RL
RA
10kΩ
Ref
NOTE: Due to the INA121’s current-feedback
topology, VG is approximately 0.7V less than
the common-mode input voltage. This DC offset
in this guard potential is satisfactory for many
guarding applications.
Low bias current
allows use with high
electrode impedances.
G = 10
2.8kΩ
VG
VG
2.8kΩ
1/2
OPA2131
390kΩ
390kΩ
1/2
OPA2131
FIGURE 12. Multiplexed-Input Data Acquisition System.
FIGURE 13. Shield Driver Circuit.
INA121
VIN
–
VIN
+
OPA130
511Ω
22.1kΩ
22.1kΩ
Ref
VO
For G = 100
RG = 511Ω // 2(22.1kΩ)
effective RG = 505Ω
100Ω
NOTE: Driving the shield minimizes CMR degradation
due to unequally distributed capacitance on the input
line. The shield is driven at approximately 1V below
the common-mode input voltage.
FIGURE 14. ECG Amplifier With Right-Leg Drive.
INA121
VIN
+
–
VIN
+
–
Channel 8
Channel 1
MPC800
MUX
ADS7816
+5V
VREF
+In
–In
12 Bits Out
Serial
RG
Ref
13. PACKAGE OPTION ADDENDUM
www.ti.com 5-Oct-2018
Addendum-Page 1
PACKAGING INFORMATION
Orderable Device Status
(1)
Package Type Package
Drawing
Pins Package
Qty
Eco Plan
(2)
Lead/Ball Finish
(6)
MSL Peak Temp
(3)
Op Temp (°C) Device Marking
(4/5)
Samples
INA121P ACTIVE PDIP P 8 50 Green (RoHS
& no Sb/Br)
CU NIPDAU N / A for Pkg Type -40 to 85 INA121P
A
INA121PA ACTIVE PDIP P 8 50 Green (RoHS
& no Sb/Br)
CU NIPDAU N / A for Pkg Type INA121P
A
INA121U ACTIVE SOIC D 8 75 Green (RoHS
& no Sb/Br)
CU NIPDAU Level-3-260C-168 HR INA
121U
INA121U/2K5 ACTIVE SOIC D 8 2500 Green (RoHS
& no Sb/Br)
CU NIPDAU Level-3-260C-168 HR INA
121U
INA121U/2K5G4 ACTIVE SOIC D 8 2500 Green (RoHS
& no Sb/Br)
CU NIPDAU Level-3-260C-168 HR INA
121U
INA121UA ACTIVE SOIC D 8 75 Green (RoHS
& no Sb/Br)
CU NIPDAU Level-3-260C-168 HR INA
121U
A
INA121UA/2K5 ACTIVE SOIC D 8 2500 Green (RoHS
& no Sb/Br)
CU NIPDAU Level-3-260C-168 HR INA
121U
A
INA121UAE4 ACTIVE SOIC D 8 75 Green (RoHS
& no Sb/Br)
CU NIPDAU Level-3-260C-168 HR INA
121U
A
INA121UG4 ACTIVE SOIC D 8 75 Green (RoHS
& no Sb/Br)
CU NIPDAU Level-3-260C-168 HR INA
121U
(1)
The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2)
RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance
do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may
reference these types of products as "Pb-Free".
RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption.
Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based
flame retardants must also meet the <=1000ppm threshold requirement.
14. PACKAGE OPTION ADDENDUM
www.ti.com 5-Oct-2018
Addendum-Page 2
(3)
MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.
(4)
There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.
(5)
Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation
of the previous line and the two combined represent the entire Device Marking for that device.
(6)
Lead/Ball Finish - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead/Ball Finish values may wrap to two lines if the finish
value exceeds the maximum column width.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information
provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and
continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.
TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.
15. TAPE AND REEL INFORMATION
*All dimensions are nominal
Device Package
Type
Package
Drawing
Pins SPQ Reel
Diameter
(mm)
Reel
Width
W1 (mm)
A0
(mm)
B0
(mm)
K0
(mm)
P1
(mm)
W
(mm)
Pin1
Quadrant
INA121U/2K5 SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1
INA121UA/2K5 SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1
PACKAGE MATERIALS INFORMATION
www.ti.com 9-Sep-2013
Pack Materials-Page 1
16. *All dimensions are nominal
Device Package Type Package Drawing Pins SPQ Length (mm) Width (mm) Height (mm)
INA121U/2K5 SOIC D 8 2500 367.0 367.0 35.0
INA121UA/2K5 SOIC D 8 2500 367.0 367.0 35.0
PACKAGE MATERIALS INFORMATION
www.ti.com 9-Sep-2013
Pack Materials-Page 2