The Easy8051 v6 development system allows programming of 8051 microcontrollers and designing of 8051-based projects. It features an on-board USB programmer, I/O ports, displays, and sensors. The system can be powered via USB or an external power supply and includes various components to interface with 8051 microcontrollers.
The PICPLC16 v6 development system provides a development environment for experimenting with PIC microcontroller-based industrial devices. It features an on-board USB programmer for programming supported PIC microcontrollers. It also includes various communication and I/O modules to interface with external devices. These include RS-232, RS-485, Ethernet, and GSM modules as well as analog inputs, relays, and I/O ports. The development system can be used as a standalone controller and programmed using the onboard programmer connected via USB to a PC.
Ultisolar VS1024BN-VS2024BN-VS3024BN-VS4524BN-VS6024BN User Manual
Available at http://shop.ultisolar.com
-Ultisolar New Energy Co., Ltd
SWH Controllers||SWH Pump Stations||MPPT/PWM Solar Controllers||Flow Meter||Hall Flow Sensors||Heat Exchangers
Ultisolar VS2048BN-VS3048BN-VS4548BN-VS6048BN User Manual
Available at http://shop.ultisolar.com
-Ultisolar New Energy Co., Ltd
SWH Controllers||SWH Pump Stations||MPPT/PWM Solar Controllers||Flow Meter||Hall Flow Sensors||Heat Exchangers
Here are the key steps for a quick startup with the Motorola Scanner SDK:
1. Install the SDK on a supported Windows OS (see System Requirements)
2. Verify the SDK installed properly by discovering scanners on the network (see Discovery)
3. Run a sample application (C++ or C#) and test basic functionality like:
- Barcode scanning
- Capturing images/video
- Beeping the scanner
- Flashing the LED
4. Learn how to retrieve scanner settings/attributes and send commands using the SDK API. See examples for:
- Enabling/disabling symbologies
- Setting beeper volume
- Controlling the beeper and LED
지브라 MC2100 산업용 PDA 시리즈 모바일 컴퓨터는 매장에서 창고까지, 작업 지점에서 재고 데이터를 자동으로 캡처합니다.
Zebra MC2100 바코드 PDA는 중저가 제품이지만 상위 모델에서나 볼수 있는 다양한 기능을 갖추었으며, 업계 최고의 처리 능력, 견고한 디자인, 우수한 인체공학, 유연한 데이터 캡처 옵션, 엔터프라이즈급 PTT (Push-to-talk), 집중화된 관리 및 플랫폼 간 OS 애그노스틱 애플리케이션을 만들 수 있는 기능을 기대할 수 있습니다.
강력한 스캐닝 성능
지브라 MC2100 모바일 컴퓨터는 동급의 다른 어떤 기기보다도 다양한 옵션(1D 선형 이미저, 1D 레이저 또는 1D/2D 영역 이미저)을 제공하며 세 가지 스캔 엔진 모두 손상되거나 오염되거나 흠집이 난 바코드를 한 번에 스캔할 수 있습니다.
우수한 사용 편리성을 위한 뛰어난 인체공학식 설계
경량의 MC2100 산업용 PDA는 편의성을 고려한 설계와 함께 한 손으로 쉽게 사용할 수 있도록 최적화된 제품입니다.
장치 뒷면에 손가락 고리가 장착되어 안전하게 잡고 사용할 수 있습니다. 키의 크기와 위치는 한 손으로 조작하기에 쉽게 설계되었습니다.
하루 종일 어디에서나 사용할 수 있는 견고한 디자인
지브라 MC2100 바코드 PDA는 낙하 및 충격시험을 거친 IP54 등급 밀봉, 오목한 키패드 및 Corning® Gorilla® 유리 출력 창을 채택하여 낙하 사고, 부딪힘, 액체 엎지름에도 계속 작동합니다.
모든 바코드에 적용 가능한 업계 최고의 스캔 성능
캡처해야 할 데이터의 유형에 따라 최고의 성능을 발휘할 스캔 엔진을 선택하십시오.
우수한 사용 편리성을 위한 뛰어난 인체공학
MC2100은 가볍게 설계되어 간편하고 한 손으로 사용할 수 있습니다.
하루 종일 어디에서나 사용할 수 있는 견고한 디자인
MC2100은 낙하 및 충돌 시험을 거친 IP54 등급 밀봉, 오목한 키패드 및 Corning® Gorilla® 유리 출력 창을 채택하여 피할 수 없는 낙하, 부딪힘, 물 엎지름에도 계속 작동합니다.
진정한 엔터프라이즈급 PTT(Push-to-talk)
통합 TEAM Express 클라이언트를 통해 단체 방송 및 개인 응답 PTT 기능을 사용할 수 있습니다.
MC2100 및 기타 Zebra 모바일 컴퓨터용 단일 애플리케이션 버전 만들기
Zebra RhoElement를 사용하여 Android, Microsoft® Windows Mobile 또는 Windows CE 운영 체제와 관계없이 Zebra 모바일 컴퓨터와 동일하게 보고, 느끼고, 작동할 수 있는 단일 애플리케이션을 만들 수 있습니다.
PHYSICAL CHARACTERISTICE
Dimensions : 6.76 in. H x 1.34 in. D x 2.40 in. W (171.7 mm H x 34.1 mm D x 60.9 mm W)
Weight :
WLAN with battery : 8.3 oz./234.7 g to 8.5 oz./240.7 g
Batch with battery:8.2 oz./231.7 g to 8.4 oz./237.7 g
Display : 2.8 in. QVGA with backlight; TFT-LCD, 64K colors
Expansion Slot : User accessible Micro SDHC card slot (up to 32GB)
Connectivity : Wi-Fi 802.11b/g/n and Bluetooth (MC2180 only); USB 1.1 full speed host/client
PERFORMANCE CHARACTERISTICS
CPU : Marvell PXA 320 624 MHz
Operating System : Microsoft® Embedded CE 6.0 Core & Pro (MC2180 Only) Editions
Memory : 128 MB RAM/256 MB ROM; 256MB RAM/256MB ROM (MC2180 Only); user accessible microSD card slot (supports up to 32GB)
DATA CAPTURE
Scanner Options : 1D linear imager, 1D1 laser, 1D/2D area imager (MC2180 only)
Exit Window : Corning® Gorilla® Glass
WIRELESS COMMUNICATIONS (MC2180 ONLY)
WLAN : 802.11b/g/n
WLAN Security : WEP, WPA, WPA2, 802.1x, EAP-TLS,TTLS (CHAP, MS-CHAP, MS-CHAPv2, PAP or MD5), PEAP (TLS, MSCHAPv2, EAP-GTC), LEAP, EAP-FAST (TLS, MS-CHAPv2, EAP-GTC), CCXv4 certified
WPAN Bluetooth : Class II, v 2.0 with EDR; integrated antenna
VOICE AND AUDIO
Audio : Speaker and microphone (MC2180 only) Buzzer (MC2100 only)
Push-to-Talk : PTT (client included); high quality speakerphone, wired headset support, PTT will support headset and speakerphone mode (MC2180 Only)
Voice Directed Picking : TEKSPEECH PRO TekSpeech Pro Certified (MC2180 Only); Compatible with 3rd party VDP clients (MC2180 only)
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com/
지브라PDA Zebra MC18 2D 산업용PDA 퍼스널쇼퍼 바코드PDA 매뉴얼HION IT
매장 방문 고객의 쇼핑 경험을 혁신적으로 개선한 지브라 MC18 산업용 PDA 퍼스널 쇼퍼로 쇼핑을 즐길 수 있는 고객 환경을 선사하십시오.
이 스마트폰형 첨단 모바일 컴퓨터는 고객에게 실시간 연결을 지원하여 진정한 가치를 선사합니다.
안드로이드 롤리팝 및 Zebra의 Mx(Mobility Extensions) 옵션으로 소비자용 안드로이드를 진정한 엔터프라이즈급 운영체제로 전환하는 일련의 기능이 추가되었습니다.
고객의 쇼핑 경험을 혁신적으로 개선
지브라 MC18 바코드 PDA 퍼스널 쇼퍼 시리즈 무선 리테일 모바일 컴퓨터는 새로운 차원의 우수한 고객 서비스와 향상된 지원 생산성 및 효율성을 제공합니다.
Zebra MC18 산업용 PDA 다목적 장치는 직원들에게 현장에서 고객의 질문에 답하고 재고 보충에서 가격 인하까지 재고를 오류 없이 효율적으로 관리하며 계산대 대기 시간을 단축하는 데 필요한 도구를 제공하기 위한 목적으로 설계되었습니다.
O/S 선택 (안드로이드 또는 윈도우즈)
널리 사용되는 모바일 운영 체제인 Android KitKat 또는 Windows Embedded Compact 7 최신 버전 중에서 선택하십시오.
그런 다음 기존 MC18 Windows 장치를 Android로 쉽게 업데이트할 수 있습니다.
거의 모든 바코드를 즉시 캡처할 수 있습니다.
지브라의 첨단 이미징 엔진은 바코드가 용지에 인쇄되었거나, 모바일 폰 화면에 표시되거나, 손상, 긁힘 또는 인쇄 품질 저하와 상관없이 모든 1D 또는 2D 바코드를 빠르게 캡처할 수 있습니다.
또한 전방향 스캔이 가능하므로 구매 고객과 매장 직원 모두에게 포인트-앤-슛(Point-and-Shoot) 방식의 간편함을 제공합니다.
PHYSICAL CHARACTERISTICS
Dimensions : 2.95 in. H x 8.58 in. L x 3.09 in. W/ 7.50 cm H x 21.80 cm L x 7.86 cm W
Weight : 10.6 oz./300 g (with battery)
Display : Color LCD; 4.0 inch 480x800 WVGA resolution; 16 bits/pixel RGB; LE D backlight; capacitive touch screen; Corning Gorilla Glass 3
Keyboard : 1 dedicated trigger key
Power Source : PowerPrecision+ 2725 mAh Li-Ion rechargeable battery
PERFORMANCE CHARACTERISTICS
Processor : TI OMAP 4430, Dual Core, 800MHz
Operating System :
Windows Embedded Compact 7
Microsoft Internet Explorer Embedded 7
Memory : 512 MB RA M/2 GB Flash or 1 GB RA M/4 GB Flash
Interface/Communications : USB 2.0 Client for Microsoft ActiveSync for service and maintenance
Light Source : Red LED Illumination with LED dot aim pattern
Scan Rate : Imaging rate: 30 Frames per second, 1280p x 800p
Ambient Light Immunity : Tolerant to typical artificial indoor and natural outdoor (direct sunlight) lighting conditions. Fluorescent, Incandescent, Mercury Vapor, Sodium Vapor, LED: 450 Ft. Candles (4,844 Lux) Sunlight: 8,000 Ft. Candles (86,111 Lux)
WIRELESS SECURITY
Wi-Fi Security Certification : Legacy, WPA and WPA 2
Authentication : None, EAP-TTLS (CHAP, MSCHAP, MSCHAPv2, PAP , MD5), EAP-TLS, PEAP (TLS, MSCHAPv2, GTC), LEAP and EAP-FAST (TLS, MSCHAPv2, GTC)
Encryption : WEP (40 or 104 bit), TKIP and AES
USER ENVIRONMENT
Operating Temperature : 32° to 104° F/0° to 40° C
Storage Temperature : 4° to 140° F/-20° to 60° C
Humidity : 40° C (RH 10% - 95%) non-condensing
Drop Specification : Withstands multiple 4 ft./1.2 m drops to vinyl tile over concrete
Tumble Specification : 1,000 0.5 m/1.64 ft. tumbles at room temperature
WIRELESS NETWORKING
WLAN : Wi-Fi IEEE 802.11a/b/g/n
WPAN : Bluetooth Class 1.5 2.1+EDR/ Bluetooth 4.0 with Bluetooth SMART technology
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com
The document is a reference guide for the Medtronic CareLink 2090 Programmer. It provides instructions for setting up, using, and maintaining the programmer. The guide describes the programmer's functions, components, display screen, setting up peripheral devices, conducting patient sessions, managing reports and data, using printers, selecting options, and servicing the programmer. It also includes safety and regulatory information.
This document provides instructions for updating the software on a Y330-U15 mobile phone from version V100R001C00B111CUSTC605 to a new version. The update can be performed using either a microSD card or a USB connection to a computer. The procedures include downloading the update package, preparing the environment, performing the update, and verifying the new software version. The document also provides guidance on factory resetting the device after switching to a new custom version.
The PICPLC16 v6 development system provides a development environment for experimenting with PIC microcontroller-based industrial devices. It features an on-board USB programmer for programming supported PIC microcontrollers. It also includes various communication and I/O modules to interface with external devices. These include RS-232, RS-485, Ethernet, and GSM modules as well as analog inputs, relays, and I/O ports. The development system can be used as a standalone controller and programmed using the onboard programmer connected via USB to a PC.
Ultisolar VS1024BN-VS2024BN-VS3024BN-VS4524BN-VS6024BN User Manual
Available at http://shop.ultisolar.com
-Ultisolar New Energy Co., Ltd
SWH Controllers||SWH Pump Stations||MPPT/PWM Solar Controllers||Flow Meter||Hall Flow Sensors||Heat Exchangers
Ultisolar VS2048BN-VS3048BN-VS4548BN-VS6048BN User Manual
Available at http://shop.ultisolar.com
-Ultisolar New Energy Co., Ltd
SWH Controllers||SWH Pump Stations||MPPT/PWM Solar Controllers||Flow Meter||Hall Flow Sensors||Heat Exchangers
Here are the key steps for a quick startup with the Motorola Scanner SDK:
1. Install the SDK on a supported Windows OS (see System Requirements)
2. Verify the SDK installed properly by discovering scanners on the network (see Discovery)
3. Run a sample application (C++ or C#) and test basic functionality like:
- Barcode scanning
- Capturing images/video
- Beeping the scanner
- Flashing the LED
4. Learn how to retrieve scanner settings/attributes and send commands using the SDK API. See examples for:
- Enabling/disabling symbologies
- Setting beeper volume
- Controlling the beeper and LED
지브라 MC2100 산업용 PDA 시리즈 모바일 컴퓨터는 매장에서 창고까지, 작업 지점에서 재고 데이터를 자동으로 캡처합니다.
Zebra MC2100 바코드 PDA는 중저가 제품이지만 상위 모델에서나 볼수 있는 다양한 기능을 갖추었으며, 업계 최고의 처리 능력, 견고한 디자인, 우수한 인체공학, 유연한 데이터 캡처 옵션, 엔터프라이즈급 PTT (Push-to-talk), 집중화된 관리 및 플랫폼 간 OS 애그노스틱 애플리케이션을 만들 수 있는 기능을 기대할 수 있습니다.
강력한 스캐닝 성능
지브라 MC2100 모바일 컴퓨터는 동급의 다른 어떤 기기보다도 다양한 옵션(1D 선형 이미저, 1D 레이저 또는 1D/2D 영역 이미저)을 제공하며 세 가지 스캔 엔진 모두 손상되거나 오염되거나 흠집이 난 바코드를 한 번에 스캔할 수 있습니다.
우수한 사용 편리성을 위한 뛰어난 인체공학식 설계
경량의 MC2100 산업용 PDA는 편의성을 고려한 설계와 함께 한 손으로 쉽게 사용할 수 있도록 최적화된 제품입니다.
장치 뒷면에 손가락 고리가 장착되어 안전하게 잡고 사용할 수 있습니다. 키의 크기와 위치는 한 손으로 조작하기에 쉽게 설계되었습니다.
하루 종일 어디에서나 사용할 수 있는 견고한 디자인
지브라 MC2100 바코드 PDA는 낙하 및 충격시험을 거친 IP54 등급 밀봉, 오목한 키패드 및 Corning® Gorilla® 유리 출력 창을 채택하여 낙하 사고, 부딪힘, 액체 엎지름에도 계속 작동합니다.
모든 바코드에 적용 가능한 업계 최고의 스캔 성능
캡처해야 할 데이터의 유형에 따라 최고의 성능을 발휘할 스캔 엔진을 선택하십시오.
우수한 사용 편리성을 위한 뛰어난 인체공학
MC2100은 가볍게 설계되어 간편하고 한 손으로 사용할 수 있습니다.
하루 종일 어디에서나 사용할 수 있는 견고한 디자인
MC2100은 낙하 및 충돌 시험을 거친 IP54 등급 밀봉, 오목한 키패드 및 Corning® Gorilla® 유리 출력 창을 채택하여 피할 수 없는 낙하, 부딪힘, 물 엎지름에도 계속 작동합니다.
진정한 엔터프라이즈급 PTT(Push-to-talk)
통합 TEAM Express 클라이언트를 통해 단체 방송 및 개인 응답 PTT 기능을 사용할 수 있습니다.
MC2100 및 기타 Zebra 모바일 컴퓨터용 단일 애플리케이션 버전 만들기
Zebra RhoElement를 사용하여 Android, Microsoft® Windows Mobile 또는 Windows CE 운영 체제와 관계없이 Zebra 모바일 컴퓨터와 동일하게 보고, 느끼고, 작동할 수 있는 단일 애플리케이션을 만들 수 있습니다.
PHYSICAL CHARACTERISTICE
Dimensions : 6.76 in. H x 1.34 in. D x 2.40 in. W (171.7 mm H x 34.1 mm D x 60.9 mm W)
Weight :
WLAN with battery : 8.3 oz./234.7 g to 8.5 oz./240.7 g
Batch with battery:8.2 oz./231.7 g to 8.4 oz./237.7 g
Display : 2.8 in. QVGA with backlight; TFT-LCD, 64K colors
Expansion Slot : User accessible Micro SDHC card slot (up to 32GB)
Connectivity : Wi-Fi 802.11b/g/n and Bluetooth (MC2180 only); USB 1.1 full speed host/client
PERFORMANCE CHARACTERISTICS
CPU : Marvell PXA 320 624 MHz
Operating System : Microsoft® Embedded CE 6.0 Core & Pro (MC2180 Only) Editions
Memory : 128 MB RAM/256 MB ROM; 256MB RAM/256MB ROM (MC2180 Only); user accessible microSD card slot (supports up to 32GB)
DATA CAPTURE
Scanner Options : 1D linear imager, 1D1 laser, 1D/2D area imager (MC2180 only)
Exit Window : Corning® Gorilla® Glass
WIRELESS COMMUNICATIONS (MC2180 ONLY)
WLAN : 802.11b/g/n
WLAN Security : WEP, WPA, WPA2, 802.1x, EAP-TLS,TTLS (CHAP, MS-CHAP, MS-CHAPv2, PAP or MD5), PEAP (TLS, MSCHAPv2, EAP-GTC), LEAP, EAP-FAST (TLS, MS-CHAPv2, EAP-GTC), CCXv4 certified
WPAN Bluetooth : Class II, v 2.0 with EDR; integrated antenna
VOICE AND AUDIO
Audio : Speaker and microphone (MC2180 only) Buzzer (MC2100 only)
Push-to-Talk : PTT (client included); high quality speakerphone, wired headset support, PTT will support headset and speakerphone mode (MC2180 Only)
Voice Directed Picking : TEKSPEECH PRO TekSpeech Pro Certified (MC2180 Only); Compatible with 3rd party VDP clients (MC2180 only)
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com/
지브라PDA Zebra MC18 2D 산업용PDA 퍼스널쇼퍼 바코드PDA 매뉴얼HION IT
매장 방문 고객의 쇼핑 경험을 혁신적으로 개선한 지브라 MC18 산업용 PDA 퍼스널 쇼퍼로 쇼핑을 즐길 수 있는 고객 환경을 선사하십시오.
이 스마트폰형 첨단 모바일 컴퓨터는 고객에게 실시간 연결을 지원하여 진정한 가치를 선사합니다.
안드로이드 롤리팝 및 Zebra의 Mx(Mobility Extensions) 옵션으로 소비자용 안드로이드를 진정한 엔터프라이즈급 운영체제로 전환하는 일련의 기능이 추가되었습니다.
고객의 쇼핑 경험을 혁신적으로 개선
지브라 MC18 바코드 PDA 퍼스널 쇼퍼 시리즈 무선 리테일 모바일 컴퓨터는 새로운 차원의 우수한 고객 서비스와 향상된 지원 생산성 및 효율성을 제공합니다.
Zebra MC18 산업용 PDA 다목적 장치는 직원들에게 현장에서 고객의 질문에 답하고 재고 보충에서 가격 인하까지 재고를 오류 없이 효율적으로 관리하며 계산대 대기 시간을 단축하는 데 필요한 도구를 제공하기 위한 목적으로 설계되었습니다.
O/S 선택 (안드로이드 또는 윈도우즈)
널리 사용되는 모바일 운영 체제인 Android KitKat 또는 Windows Embedded Compact 7 최신 버전 중에서 선택하십시오.
그런 다음 기존 MC18 Windows 장치를 Android로 쉽게 업데이트할 수 있습니다.
거의 모든 바코드를 즉시 캡처할 수 있습니다.
지브라의 첨단 이미징 엔진은 바코드가 용지에 인쇄되었거나, 모바일 폰 화면에 표시되거나, 손상, 긁힘 또는 인쇄 품질 저하와 상관없이 모든 1D 또는 2D 바코드를 빠르게 캡처할 수 있습니다.
또한 전방향 스캔이 가능하므로 구매 고객과 매장 직원 모두에게 포인트-앤-슛(Point-and-Shoot) 방식의 간편함을 제공합니다.
PHYSICAL CHARACTERISTICS
Dimensions : 2.95 in. H x 8.58 in. L x 3.09 in. W/ 7.50 cm H x 21.80 cm L x 7.86 cm W
Weight : 10.6 oz./300 g (with battery)
Display : Color LCD; 4.0 inch 480x800 WVGA resolution; 16 bits/pixel RGB; LE D backlight; capacitive touch screen; Corning Gorilla Glass 3
Keyboard : 1 dedicated trigger key
Power Source : PowerPrecision+ 2725 mAh Li-Ion rechargeable battery
PERFORMANCE CHARACTERISTICS
Processor : TI OMAP 4430, Dual Core, 800MHz
Operating System :
Windows Embedded Compact 7
Microsoft Internet Explorer Embedded 7
Memory : 512 MB RA M/2 GB Flash or 1 GB RA M/4 GB Flash
Interface/Communications : USB 2.0 Client for Microsoft ActiveSync for service and maintenance
Light Source : Red LED Illumination with LED dot aim pattern
Scan Rate : Imaging rate: 30 Frames per second, 1280p x 800p
Ambient Light Immunity : Tolerant to typical artificial indoor and natural outdoor (direct sunlight) lighting conditions. Fluorescent, Incandescent, Mercury Vapor, Sodium Vapor, LED: 450 Ft. Candles (4,844 Lux) Sunlight: 8,000 Ft. Candles (86,111 Lux)
WIRELESS SECURITY
Wi-Fi Security Certification : Legacy, WPA and WPA 2
Authentication : None, EAP-TTLS (CHAP, MSCHAP, MSCHAPv2, PAP , MD5), EAP-TLS, PEAP (TLS, MSCHAPv2, GTC), LEAP and EAP-FAST (TLS, MSCHAPv2, GTC)
Encryption : WEP (40 or 104 bit), TKIP and AES
USER ENVIRONMENT
Operating Temperature : 32° to 104° F/0° to 40° C
Storage Temperature : 4° to 140° F/-20° to 60° C
Humidity : 40° C (RH 10% - 95%) non-condensing
Drop Specification : Withstands multiple 4 ft./1.2 m drops to vinyl tile over concrete
Tumble Specification : 1,000 0.5 m/1.64 ft. tumbles at room temperature
WIRELESS NETWORKING
WLAN : Wi-Fi IEEE 802.11a/b/g/n
WPAN : Bluetooth Class 1.5 2.1+EDR/ Bluetooth 4.0 with Bluetooth SMART technology
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com
The document is a reference guide for the Medtronic CareLink 2090 Programmer. It provides instructions for setting up, using, and maintaining the programmer. The guide describes the programmer's functions, components, display screen, setting up peripheral devices, conducting patient sessions, managing reports and data, using printers, selecting options, and servicing the programmer. It also includes safety and regulatory information.
This document provides instructions for updating the software on a Y330-U15 mobile phone from version V100R001C00B111CUSTC605 to a new version. The update can be performed using either a microSD card or a USB connection to a computer. The procedures include downloading the update package, preparing the environment, performing the update, and verifying the new software version. The document also provides guidance on factory resetting the device after switching to a new custom version.
Functions:
1.Live data graphic display
2.Full component activation
3.Read & change ECU coding
4.Setting of adaptation values
5.CANBUS function supported
6.Internet update function
7.HYUNDAI immobilizer
8.Testing report saving function
9.VOLKSWAGON immobilizer III
10.Coding of the new control modules
11.NISSAN idle speed self learning function
12.Hand-held independent operation, supporting PC link
This is the user manual Autel Maxilink ML329A.
>> READ MORE: https://www.obdadvisor.com/autel-scanners/
Here is a detailed review of the best Autel scan tools based on my own experience, including:
- Compatibility
- Features and Functions
- Pros and Cons
Check it out to get the REVIEW and some NOTES about using the scanner.
1. The document provides information on networking products for industrial automation including the ConneXium cabling system, AS-Interface cabling system, and servers and gateways.
2. The ConneXium cabling system section describes a hub, transceiver, switches, gateways & converters, software, and cables & connectors.
3. The AS-Interface cabling system section covers interfaces, dedicated components, installation systems, tools, and safety solutions.
1) The document provides safety precautions and instructions for using a diagnostic tool to diagnose vehicle systems. It describes connecting the tool to the vehicle, selecting diagnostic functions like reading fault codes, erasing codes, and reading live data.
2) The tool can diagnose vehicle control systems for engine, transmission, ABS brakes and more. Instructions are provided for selecting the vehicle system and using various tool functions to diagnose issues.
3) Settings and programming functions are also described, like accessing vehicle adaptations, coding, and security settings with the correct login credentials.
1. The document provides steps to update a diagnostic tool by downloading an update package from a website onto a memory card and then inserting the memory card into the tool to initiate the update.
2. It involves registering the tool by entering its serial number and registration code on the update tool software, downloading selected updates or all available updates onto the memory card from the update tool, and reinserting the memory card into the diagnostic tool to start the automated updating process.
3. Key steps include connecting the diagnostic tool to the computer, noting the tool's serial number and registration code, registering the tool on the update software by providing an email and registration code, selecting and downloading updates, and reinserting the memory card to
This document provides instructions for using the iCarsoft diagnostic tool or CR Plus. It outlines safety precautions, explains diagnostic functions like reading and clearing codes, and provides guidance on connecting the tool, navigating menus, updating software, and diagnosing vehicle systems.
The document describes the Ingenic RD_JZ4775_MENSA development board, including its key components, interfaces and functions. The board is powered by 5V and supports features such as 512MB DDR3 RAM, 4GB NAND flash storage, 800x480 LCD, USB, audio, Ethernet, and expandability via interfaces like MMC/SD, camera and LCD expansion cards. The document provides detailed information on the board's hardware design and specifications.
1. The document describes the MICS Nexys control module, which is used to control generating sets. It has a standard configuration with components mounted on the front and rear of a polycarbonate control panel.
2. The front panel contains buttons and LED indicators for starting, stopping, and monitoring the generating set. The rear panel contains electronic cards for control and optional measurements. Safety features include an emergency stop button and optional add-ons.
3. The control module manages the generating set in manual or automatic mode, starting and stopping it based on configured settings or external commands. It monitors operations and displays faults, alarms and measured electrical and mechanical values on the LCD screen.
This document provides instructions for installing software and setting up the Tmote Invent hardware. It explains how to install the Tmote Tools, connect the Tmote Invent device to the computer, run sample applications using Trawler to view sensor data and network topology, and access other pre-installed applications using Deluge.
This document provides important user information for using Rockwell Automation approved demonstration hardware, software and firmware as a learning tool. It states that those responsible for applications must ensure safety and legal requirements are met. Rockwell Automation assumes no liability for damages resulting from use of the products described in the documentation. The document also covers user responsibilities for proper use, calibration, operation and maintenance of products.
This document provides instructions for installing and operating a universal variable speed AC drive for elevator systems. It contains safety warnings and describes how to connect the drive to motors, encoders, and other system components. The document also summarizes the lift software functions such as creep-to-floor positioning and direct-to-floor positioning. Installation, I/O configuration, basic operation, and optimizing parameters are covered to help commission the elevator solution.
The document provides recommendations for Power Monitoring Expert system designs based on the number of devices and users. For systems up to 250 devices, it recommends server specifications and estimated years of data logging capacity for "Basic" and "Advanced" systems. Basic systems are suitable for up to 50 devices and 5 users, while Advanced systems can support up to 250 devices and 20 users. The recommendations cover server type, operating system, SQL Server edition, CPU, RAM, hard drives and other factors.
This document provides information on interfacing circuits and components for use with PICAXE microcontrollers. It begins with an overview of standard interfacing circuits that can be used with most output devices, such as transistor circuits, Darlington driver ICs, relay circuits, and power MOSFET circuits. The document then describes how to interface various output devices like LEDs, lamps, buzzers, motors, stepper motors, servos, displays and more using these standard circuits. It also covers interfacing common input devices like switches, potentiometers, light sensors and temperature sensors. The document concludes with examples of interfacing more advanced components such as LCD displays and serial communication. Code samples and circuit diagrams are provided throughout to illustrate
The document provides information about the PICDEM 2 Plus Demonstration Board, including:
1. An introduction to the board and its capabilities of demonstrating Microchip's 8-bit PIC microcontrollers.
2. A list of the contents included with the board, such as the board itself and sample pre-programmed devices.
3. Details on using the board either stand-alone with a pre-programmed device, or with a debugger/programmer like MPLAB ICD 3 or PICkit 3 to program and debug code. Sample programs are provided.
This document provides biographies of the authors of the book "Hands-On PLC Programming with RSLogixTM 500 and LogixPro®". The biographies summarize the professional experiences and educational backgrounds of each author: Dr. Eman Kamel and Dr. Khaled Kamel. Dr. Eman Kamel has over 20 years of experience in process automation and extensive experience programming PLCs from manufacturers like Allen-Bradley, Siemens, and GE. Dr. Khaled Kamel has experience in industrial control systems and over 25 years supervising graduate research students.
This document is the user manual for MicroSmart programmable logic controllers (PLCs). It describes new modules and upgraded functionality for the FC4A series PLCs. New modules include all-in-one and slim CPU modules, an AC input module, and AS-Interface master modules. Upgraded functionality includes nine new functions for CPU modules depending on model and system program version, such as PID instruction upgrade and RS485 user communication compatibility. The manual provides safety precautions and instructions for installation, wiring, programming basics, special functions, troubleshooting, and specifications for CPU, I/O, and other modules.
VigilantPlant is Yokogawa's automation concept for safe, reliable and profitable plant operations
Our concept is for a plant to be a place where people can be watchful and attentive, while the business responds quickly and efficiently to change. Non-stop production is assured as the plant’s personnel confidently expand their capabilities.
This document describes a microcontroller-based timer project. It provides background on the company Future Robotix, which designs embedded systems using microcontrollers like the AVR and MCS51 families. Embedded systems are integral computer systems found in devices like cell phones, cars, and medical equipment. The project uses an 8051 microcontroller as the control unit and interfaces it with switches and a buzzer. The microcontroller counts down the time and triggers the buzzer when the timer expires. Keil software is used for programming the 8051 microcontroller.
Motorola solutions wing 5.5 access point system reference guide (part no. mn0...Advantec Distribution
- The document is a system reference guide for the Motorola Solutions WiNG 5.5 access point.
- It provides an overview of the web user interface features for configuring and managing WiNG 5.5 access points.
- The guide covers topics such as the initial setup wizard, dashboard, device configuration profiles, wireless configuration, network configuration, security configuration, and services configuration.
The document is a user manual for the RouterBOARD 411 that provides specifications and instructions. It describes the system board layout including CPU, memory, storage, ports, and slots. It provides instructions on assembling, powering, and booting the device, as well as information on the boot loader and configuration options.
The user manual provides instructions for setting up and using the Bilcare nonClonableTM Reader SX21. It includes sections on:
- System components and how the authentication system works
- Setting up the mobile phone and downloading the software
- Charging the battery and turning the reader on/off
- Pairing the reader with the mobile phone via Bluetooth
- Swiping the blister pack containing the tag through the reader
- Understanding the authentication process and status messages
Functions:
1.Live data graphic display
2.Full component activation
3.Read & change ECU coding
4.Setting of adaptation values
5.CANBUS function supported
6.Internet update function
7.HYUNDAI immobilizer
8.Testing report saving function
9.VOLKSWAGON immobilizer III
10.Coding of the new control modules
11.NISSAN idle speed self learning function
12.Hand-held independent operation, supporting PC link
This is the user manual Autel Maxilink ML329A.
>> READ MORE: https://www.obdadvisor.com/autel-scanners/
Here is a detailed review of the best Autel scan tools based on my own experience, including:
- Compatibility
- Features and Functions
- Pros and Cons
Check it out to get the REVIEW and some NOTES about using the scanner.
1. The document provides information on networking products for industrial automation including the ConneXium cabling system, AS-Interface cabling system, and servers and gateways.
2. The ConneXium cabling system section describes a hub, transceiver, switches, gateways & converters, software, and cables & connectors.
3. The AS-Interface cabling system section covers interfaces, dedicated components, installation systems, tools, and safety solutions.
1) The document provides safety precautions and instructions for using a diagnostic tool to diagnose vehicle systems. It describes connecting the tool to the vehicle, selecting diagnostic functions like reading fault codes, erasing codes, and reading live data.
2) The tool can diagnose vehicle control systems for engine, transmission, ABS brakes and more. Instructions are provided for selecting the vehicle system and using various tool functions to diagnose issues.
3) Settings and programming functions are also described, like accessing vehicle adaptations, coding, and security settings with the correct login credentials.
1. The document provides steps to update a diagnostic tool by downloading an update package from a website onto a memory card and then inserting the memory card into the tool to initiate the update.
2. It involves registering the tool by entering its serial number and registration code on the update tool software, downloading selected updates or all available updates onto the memory card from the update tool, and reinserting the memory card into the diagnostic tool to start the automated updating process.
3. Key steps include connecting the diagnostic tool to the computer, noting the tool's serial number and registration code, registering the tool on the update software by providing an email and registration code, selecting and downloading updates, and reinserting the memory card to
This document provides instructions for using the iCarsoft diagnostic tool or CR Plus. It outlines safety precautions, explains diagnostic functions like reading and clearing codes, and provides guidance on connecting the tool, navigating menus, updating software, and diagnosing vehicle systems.
The document describes the Ingenic RD_JZ4775_MENSA development board, including its key components, interfaces and functions. The board is powered by 5V and supports features such as 512MB DDR3 RAM, 4GB NAND flash storage, 800x480 LCD, USB, audio, Ethernet, and expandability via interfaces like MMC/SD, camera and LCD expansion cards. The document provides detailed information on the board's hardware design and specifications.
1. The document describes the MICS Nexys control module, which is used to control generating sets. It has a standard configuration with components mounted on the front and rear of a polycarbonate control panel.
2. The front panel contains buttons and LED indicators for starting, stopping, and monitoring the generating set. The rear panel contains electronic cards for control and optional measurements. Safety features include an emergency stop button and optional add-ons.
3. The control module manages the generating set in manual or automatic mode, starting and stopping it based on configured settings or external commands. It monitors operations and displays faults, alarms and measured electrical and mechanical values on the LCD screen.
This document provides instructions for installing software and setting up the Tmote Invent hardware. It explains how to install the Tmote Tools, connect the Tmote Invent device to the computer, run sample applications using Trawler to view sensor data and network topology, and access other pre-installed applications using Deluge.
This document provides important user information for using Rockwell Automation approved demonstration hardware, software and firmware as a learning tool. It states that those responsible for applications must ensure safety and legal requirements are met. Rockwell Automation assumes no liability for damages resulting from use of the products described in the documentation. The document also covers user responsibilities for proper use, calibration, operation and maintenance of products.
This document provides instructions for installing and operating a universal variable speed AC drive for elevator systems. It contains safety warnings and describes how to connect the drive to motors, encoders, and other system components. The document also summarizes the lift software functions such as creep-to-floor positioning and direct-to-floor positioning. Installation, I/O configuration, basic operation, and optimizing parameters are covered to help commission the elevator solution.
The document provides recommendations for Power Monitoring Expert system designs based on the number of devices and users. For systems up to 250 devices, it recommends server specifications and estimated years of data logging capacity for "Basic" and "Advanced" systems. Basic systems are suitable for up to 50 devices and 5 users, while Advanced systems can support up to 250 devices and 20 users. The recommendations cover server type, operating system, SQL Server edition, CPU, RAM, hard drives and other factors.
This document provides information on interfacing circuits and components for use with PICAXE microcontrollers. It begins with an overview of standard interfacing circuits that can be used with most output devices, such as transistor circuits, Darlington driver ICs, relay circuits, and power MOSFET circuits. The document then describes how to interface various output devices like LEDs, lamps, buzzers, motors, stepper motors, servos, displays and more using these standard circuits. It also covers interfacing common input devices like switches, potentiometers, light sensors and temperature sensors. The document concludes with examples of interfacing more advanced components such as LCD displays and serial communication. Code samples and circuit diagrams are provided throughout to illustrate
The document provides information about the PICDEM 2 Plus Demonstration Board, including:
1. An introduction to the board and its capabilities of demonstrating Microchip's 8-bit PIC microcontrollers.
2. A list of the contents included with the board, such as the board itself and sample pre-programmed devices.
3. Details on using the board either stand-alone with a pre-programmed device, or with a debugger/programmer like MPLAB ICD 3 or PICkit 3 to program and debug code. Sample programs are provided.
This document provides biographies of the authors of the book "Hands-On PLC Programming with RSLogixTM 500 and LogixPro®". The biographies summarize the professional experiences and educational backgrounds of each author: Dr. Eman Kamel and Dr. Khaled Kamel. Dr. Eman Kamel has over 20 years of experience in process automation and extensive experience programming PLCs from manufacturers like Allen-Bradley, Siemens, and GE. Dr. Khaled Kamel has experience in industrial control systems and over 25 years supervising graduate research students.
This document is the user manual for MicroSmart programmable logic controllers (PLCs). It describes new modules and upgraded functionality for the FC4A series PLCs. New modules include all-in-one and slim CPU modules, an AC input module, and AS-Interface master modules. Upgraded functionality includes nine new functions for CPU modules depending on model and system program version, such as PID instruction upgrade and RS485 user communication compatibility. The manual provides safety precautions and instructions for installation, wiring, programming basics, special functions, troubleshooting, and specifications for CPU, I/O, and other modules.
VigilantPlant is Yokogawa's automation concept for safe, reliable and profitable plant operations
Our concept is for a plant to be a place where people can be watchful and attentive, while the business responds quickly and efficiently to change. Non-stop production is assured as the plant’s personnel confidently expand their capabilities.
This document describes a microcontroller-based timer project. It provides background on the company Future Robotix, which designs embedded systems using microcontrollers like the AVR and MCS51 families. Embedded systems are integral computer systems found in devices like cell phones, cars, and medical equipment. The project uses an 8051 microcontroller as the control unit and interfaces it with switches and a buzzer. The microcontroller counts down the time and triggers the buzzer when the timer expires. Keil software is used for programming the 8051 microcontroller.
Motorola solutions wing 5.5 access point system reference guide (part no. mn0...Advantec Distribution
- The document is a system reference guide for the Motorola Solutions WiNG 5.5 access point.
- It provides an overview of the web user interface features for configuring and managing WiNG 5.5 access points.
- The guide covers topics such as the initial setup wizard, dashboard, device configuration profiles, wireless configuration, network configuration, security configuration, and services configuration.
The document is a user manual for the RouterBOARD 411 that provides specifications and instructions. It describes the system board layout including CPU, memory, storage, ports, and slots. It provides instructions on assembling, powering, and booting the device, as well as information on the boot loader and configuration options.
The user manual provides instructions for setting up and using the Bilcare nonClonableTM Reader SX21. It includes sections on:
- System components and how the authentication system works
- Setting up the mobile phone and downloading the software
- Charging the battery and turning the reader on/off
- Pairing the reader with the mobile phone via Bluetooth
- Swiping the blister pack containing the tag through the reader
- Understanding the authentication process and status messages
지브라키오스크 Zebra MK3100 8인치 마이크로키오스크 산업용키오스크 산업용PC 매뉴얼HION IT
동급 최강의 처리 능력
1GHz 프로세서, 1GB RAM/8GB 플래시 및 MicroSD 카드 슬롯을 통한 최대 32GB의 추가 메모리가 내장되어 있어 가장 복잡한 멀티미디어 애플리케이션에 적합한 능력을 제공하는, 동급 최강의 성능을 자랑하는 플랫폼입니다.
모든 바코드 캡처
라벨이 손상된 경우에도 종이 라벨(플라스틱 포인트 카드, 기프트 카드 또는 휴대 전화 화면)에 인쇄된 1D 및 2D 바코드를 스캔합니다.
메모리에서 주변 장치까지 필요한 모든 제품을 추가합니다.
사용자가 액세스할 수 있는 USB 포트 3개와 블루투스를 통해 비즈니스 요구 사항에 맞춰 MK3100을 사용자가 지정할 수 있으며, 까다로운 애플리케이션에 메모리도 추가합니다.
무선 또는 유선 프린터를 추가해 사용자가 영수증, 선물 등록 등을 인쇄할 수 있습니다.
직접 계산할 수 있는 카드 결제기와 데이터 입력을 단순화하는 키보드도 추가할 수 있습니다.
전체 화면 비디오 지원
풍부한 비디오 기반 정보의 전달로 고객과 직원과 좀 더 수월하게 연락할 수 있습니다.
사용 방법 및 제품 데모 비디오는 고객에게 부가 가치를 제공합니다.
교육 비디오는 판매 기술 향상에 도움을 주고 직원들이 새로운 항목에 대한 최신 정보를 습득합니다.
아울러 장치를 사용하지 않을 때 비디오 광고를 실행할 수 있는 기능은 광고 예산과 MK3100을 최대한 활용하는 데 도움을 줍니다.
모바일 바코드를 사용해 더욱 견고하고 개인적인 고객과의 관계 구축
컴퓨터 화면에서 전자 바코드를 스캔할 수 있어 거의 항상 고객이 보유한 개별 장치인 휴대 전화에 연결할 수 있습니다.
그 결과 편리함과 가치를 얻게 됩니다. 고객은 언제나 자신의 고객 카드, 쿠폰, 탑승권 등을 휴대하여 시간과 비용을 절약합니다.
손쉬운 배치
802.11a/b/g/n 및 이더넷 지원으로 기존 무선 또는 유선 네트워크에 쉽게 연결할 수 있습니다.
'n' 지원은 데이터 집약적인 멀티미디어 애플리케이션에 적합한 대역폭을 제공합니다.
'a'는 중요한 매장 무선 인프라에 사용할 수 있으므로 성능을 보존하기만 하면 됩니다.
PoE(Power-over-Ethernet)를 지원하여 모든 장치에 동일한 콘센트를 사용할 수 있습니다.
표준 VESA 장착으로 선반, 벽면, 전시 공간을 비롯한 모든 장소에 쉽게 장착할 수 있습니다.
OS 비의존형인 세련된 애플리케이션에 적합한 RhoElements 지원
운영 체제와 상관 없이 모든 장치에서 실행할 수 있는 한 가지 버전의 애플리케이션을 만들어 애플리케이션 개발 투자를 최소화합니다.
PHYSICAL CHARACTERISTICS
Dimensions : 8.87 in. H x 8.87 in. L x 2.17 in. W (22.5 cm H x 22.5 cm L x 5.5 cm W)
Weight : 1.9 lbs./0.86 kg
Display : 8 in./20.32 cm diagonal WVGA LCD; 800 x 480 pixels; resistive touch screen
Power : DC: 12v; Support for Power-over-Ethernet (802.3af and 802.3at)
Expansion Capabilities : User accessible MicroSD card slot; USB host
Data Ports : 1 Mini USB 2.0 host/client; 2 Mini USB 2.0 host; Ethernet RJ-45
Audio : Two integrated stereo speakers, microphone and headset jack
Scanner : Imager for capture of 1-D, 2-D, and PDF417 codes
Keys : Four programmable keys
SYMBOLOGY DECODE CAPABILITY
2D Imager Scanner Decode Capability :
1D : Code 39, Code 128, EAN-8, EAN-13, UPCEAN-128, UPCA, UPCE, UPC/EAN Supplementals, GS1 DataBar, Chinese 2 of 5, Code 93, Discrete 2 of 5, Interleaved 2 of 5 (including ITF14 and ITF 2 of 5), Codabar, ISBT 128
2D : PDF417, QR, Aztec, DataMatrix and MaxiCode
USER ENVIRONMENT
Operating Temp. : 32° to 104° F /0° to 40° C
Storage Temp. : -40° to 158° F /-40° to 70° C
Humidity : 5% to 85% (non-condensing)
Application Development Tools : RhoMobile Suite for web development; Enterprise Mobility Developer Kit (EMDK) for C for developing native C/C++ applications; Enterprise Mobility Developer Kit (EMDK) for .NET for developing managed .NET applications in C# or VB.NET
Management Tools : Rapid Deployment Client; Zebra Mobility Services Platform (MSP)
Ambient Light : Immunity Immune to normal indoor lighting up to 1600 Lux; immune to sunlight up to 86,000 Lux
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com/
The document is a user manual for PanelView Plus terminals that provides important safety and operational information. It covers key topics such as hazardous location installation, environmental requirements, installation procedures, power connections, accessing configuration mode, and loading and running applications. The manual instructs technicians on how to properly install, configure, and operate the PanelView Plus terminals. It also provides revision details and references additional resources for further information.
The document is a programming manual for the Altivar 212 variable speed drive for asynchronous motors. It provides general safety information and instructions, an overview of the drive's operating modes and menu navigation, and details on configuring parameters to set up motor control, drive control, inputs/outputs, command and reference signals, and more. Parameter tables are included to help the user understand and program over 300 drive parameters to customize operation for their specific application. Instructions are also provided for monitoring the drive operation and diagnosing any issues.
This document provides instructions for installing, uninstalling, and using the TM-T88V software and utilities, describing the supported operating systems, installation types including easy and custom install, how to access manuals, differences by OS, and replacing older TM printer models with the TM-T88V.
Tự Động Hóa Siemens,
Catalog Thiết Bị Điện Tự Động Hóa Siemens,
Catalog Phụ Kiện Tự Động Hóa Siemens,
Catalog Tự Động Hóa Siemens,
http://dienhathe.com,
Chi tiết các sản phẩm khác của Tự Động Hóa Siemens tại https://dienhathe.com
Xem thêm các Catalog khác của Tự Động Hóa Siemens tại https://dienhathe.info
Để nhận báo giá sản phẩm Tự Động Hóa Siemens vui lòng gọi: 0907.764.966
Tự Động Hóa Siemens,
Catalog Thiết Bị Điện Tự Động Hóa Siemens,
Catalog Phụ Kiện Tự Động Hóa Siemens,
Catalog Tự Động Hóa Siemens,
http://dienhathe.com,
Chi tiết các sản phẩm khác của Tự Động Hóa Siemens tại https://dienhathe.com
Xem thêm các Catalog khác của Tự Động Hóa Siemens tại https://dienhathe.info
Để nhận báo giá sản phẩm Tự Động Hóa Siemens vui lòng gọi: 0907.764.966
The document describes the Triton RL1600 ATM. It has a Windows CE operating system, supports multiple languages, uses encryption for card and PIN processing, and has maintenance and reporting features. It dispenses cash using a single cassette MiniMech mechanism. The ATM has a color LCD display, encrypted PIN pad, thermal receipt printer, and cabinet that meets accessibility standards.
[OReilly Superstream] Occupy the Space: A grassroots guide to engineering (an...Jason Yip
The typical problem in product engineering is not bad strategy, so much as “no strategy”. This leads to confusion, lack of motivation, and incoherent action. The next time you look for a strategy and find an empty space, instead of waiting for it to be filled, I will show you how to fill it in yourself. If you’re wrong, it forces a correction. If you’re right, it helps create focus. I’ll share how I’ve approached this in the past, both what works and lessons for what didn’t work so well.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/how-axelera-ai-uses-digital-compute-in-memory-to-deliver-fast-and-energy-efficient-computer-vision-a-presentation-from-axelera-ai/
Bram Verhoef, Head of Machine Learning at Axelera AI, presents the “How Axelera AI Uses Digital Compute-in-memory to Deliver Fast and Energy-efficient Computer Vision” tutorial at the May 2024 Embedded Vision Summit.
As artificial intelligence inference transitions from cloud environments to edge locations, computer vision applications achieve heightened responsiveness, reliability and privacy. This migration, however, introduces the challenge of operating within the stringent confines of resource constraints typical at the edge, including small form factors, low energy budgets and diminished memory and computational capacities. Axelera AI addresses these challenges through an innovative approach of performing digital computations within memory itself. This technique facilitates the realization of high-performance, energy-efficient and cost-effective computer vision capabilities at the thin and thick edge, extending the frontier of what is achievable with current technologies.
In this presentation, Verhoef unveils his company’s pioneering chip technology and demonstrates its capacity to deliver exceptional frames-per-second performance across a range of standard computer vision networks typical of applications in security, surveillance and the industrial sector. This shows that advanced computer vision can be accessible and efficient, even at the very edge of our technological ecosystem.
Main news related to the CCS TSI 2023 (2023/1695)Jakub Marek
An English 🇬🇧 translation of a presentation to the speech I gave about the main changes brought by CCS TSI 2023 at the biggest Czech conference on Communications and signalling systems on Railways, which was held in Clarion Hotel Olomouc from 7th to 9th November 2023 (konferenceszt.cz). Attended by around 500 participants and 200 on-line followers.
The original Czech 🇨🇿 version of the presentation can be found here: https://www.slideshare.net/slideshow/hlavni-novinky-souvisejici-s-ccs-tsi-2023-2023-1695/269688092 .
The videorecording (in Czech) from the presentation is available here: https://youtu.be/WzjJWm4IyPk?si=SImb06tuXGb30BEH .
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!
How to Interpret Trends in the Kalyan Rajdhani Mix Chart.pdfChart Kalyan
A Mix Chart displays historical data of numbers in a graphical or tabular form. The Kalyan Rajdhani Mix Chart specifically shows the results of a sequence of numbers over different periods.
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
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
Northern Engraving | Nameplate Manufacturing Process - 2024Northern Engraving
Manufacturing custom quality metal nameplates and badges involves several standard operations. Processes include sheet prep, lithography, screening, coating, punch press and inspection. All decoration is completed in the flat sheet with adhesive and tooling operations following. The possibilities for creating unique durable nameplates are endless. How will you create your brand identity? We can help!
Connector Corner: Seamlessly power UiPath Apps, GenAI with prebuilt connectorsDianaGray10
Join us to learn how UiPath Apps can directly and easily interact with prebuilt connectors via Integration Service--including Salesforce, ServiceNow, Open GenAI, and more.
The best part is you can achieve this without building a custom workflow! Say goodbye to the hassle of using separate automations to call APIs. By seamlessly integrating within App Studio, you can now easily streamline your workflow, while gaining direct access to our Connector Catalog of popular applications.
We’ll discuss and demo the benefits of UiPath Apps and connectors including:
Creating a compelling user experience for any software, without the limitations of APIs.
Accelerating the app creation process, saving time and effort
Enjoying high-performance CRUD (create, read, update, delete) operations, for
seamless data management.
Speakers:
Russell Alfeche, Technology Leader, RPA at qBotic and UiPath MVP
Charlie Greenberg, host
"Choosing proper type of scaling", Olena SyrotaFwdays
Imagine an IoT processing system that is already quite mature and production-ready and for which client coverage is growing and scaling and performance aspects are life and death questions. The system has Redis, MongoDB, and stream processing based on ksqldb. In this talk, firstly, we will analyze scaling approaches and then select the proper ones for our system.
Discover top-tier mobile app development services, offering innovative solutions for iOS and Android. Enhance your business with custom, user-friendly mobile applications.
The Microsoft 365 Migration Tutorial For Beginner.pptxoperationspcvita
This presentation will help you understand the power of Microsoft 365. However, we have mentioned every productivity app included in Office 365. Additionally, we have suggested the migration situation related to Office 365 and how we can help you.
You can also read: https://www.systoolsgroup.com/updates/office-365-tenant-to-tenant-migration-step-by-step-complete-guide/
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.
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.
1. Easy 8051 v6
™
User manual
All Mikroelektronika´s development systems represent irreplaceable tools for
programming and developing microcontroller-based devices. Carefully chosen
components and the use of machines of the last generation for mounting and
testing thereof are the best guarantee of high reliability of our devices. Due to
simple design, a large number of add-on modules and ready to use examples,
all our users, regardless of their experience, have the possibility to develop
DevelopmentSystem
Ifyouwanttolearnmoreaboutourproducts,pleasevisitourwebsiteatwww.mikroe.com
Ifyouareexperiencingsomeproblemswithanyofourproductsorjustneedadditionalinformation,pleaseplaceyourticketat
www.mikroe.com/en/support
3. 3Easy8051 v6 Development System
MikroElektronika
page
TABLE OF CONTENTS
Introduction to Easy8051 v6 Development System .......................................................................... 4
Key Features .................................................................................................................................... 5
1.0. Connecting the System to your PC ........................................................................................... 6
2.0. Supported Microcontrollers ........................................................................................................ 7
3.0. On-board USB 2.0 8051prog Programmer ............................................................................... 8
4.0. Clock Oscillator ......................................................................................................................... 9
5.0 Power Supply ............................................................................................................................ 10
6.0 RS-232 Communication Interface ............................................................................................. 11
7.0. A/D Converter ........................................................................................................................... 12
8.0. DS1820 Temperature Sensor .................................................................................................... 13
9.0. LEDs ......................................................................................................................................... 14
10.0. Push Buttons ........................................................................................................................... 15
11.0. MENU Keypad .........................................................................................................................16
12.0. 4x4 Keypad ............................................................................................................................ 17
13.0. On-board 2x16 LCD Display ................................................................................................... 18
14.0. 2x16 LCD Display .................................................................................................................. 19
15.0. 128x64 Graphic LCD Display ..................................................................................................20
16.0. Seven-Segment Display ......................................................................................................... 21
17.0. I/O Ports ................................................................................................................................. 23
18.0. Port Expander (Additional I/O Ports) ....................................................................................... 25
4. 4 Easy8051 v6 Development System
MikroElektronika
page
Introduction to Easy8051 v6 Development System
The Easy8051 v6™ development system is a fully contained board suitable for programming 8051 microcontrollers from
Atmel as well as for designing and testing 8051 projects. This development system includes an on-board programmer providing an
interface between the microcontroller and a PC. You are simply expected to write a program in one of the 8051 compilers, generate
8051prog™ programmer. The Easy8051 v6 contains many devices,
such as 128x64 graphic LCD display, alphanumeric 2x16 LCD display, on-board 2x16 LCD display, 4x4 keypad, port expander etc,
that conveniently interface with 8051 microcontrollers and allow you to easily simulate the operation of the target device.
Full-featured and user-friendly
development system for 8051
microcontroller based devices
High-performance on-board
USB 2.0 programmer
Port expander gives two
more I/O ports to your 8051
microcontroller
Serial on-board 2x16 LCD
display
Graphic LCD display with
backlight
Power supply: over a DC connector (7 to 23V AC or 9 to 32V DC); or
over a USB cable for programming (5V DC)
Power consumption: 50mA in idle state (when on-board modules are inactive)
Dimension: 26,5 x 22cm (10,4 x 8,6inch)
Weight: ~417g (0.92lbs)
Development system: Easy8051 v6
CD: product CD with appropriate software
Cables: USB cable
drivers quick guide and electrical schematic of the
Easy8051 v6 development system
The program provides a complete list of all supported
microcontrollers.The latest version of this program with updated list of supported
microcontrollers can be downloaded from our website at www.mikroe.com
5. 5Easy8051 v6 Development System
MikroElektronika
page
1 2 3 65 98
1517 1618
27
26
24
11
14
Key Features
1. Power supply voltage regulator
2. On-board programmer’s USB connector
3. USB 2.0 8051prog programmer
4. On-board 2x16 LCD display contrast adjustment
5. Seven-segment display
6. On-board alphanumeric 2x16 LCD display
7. A/D converter test inputs
8. 4.096V voltage reference
9. DIP switches to enable pull-up/pull-down resistors
10. Pull-up/pull-down resistor selection
11. I/O port connectors
12. Sockets to plug 8051 microcontrollers into
13. Graphic LCD display contrast adjustment
14. Port expander
15. Graphic LCD display connector
16. MENU keypad
17. 4x4 keypad
18. Push buttons to simulate digital inputs
19. Pins’ logic state selector
20. Jumper for shortening protective resistor
21. Reset button
22. DS1820 temperature sensor
23. 38 LEDs to indicate pins’ logic state
24. Alphanumeric LCD display contrast adjustment
25. Clock signal generator
26. Alphanumeric LCD display connector
27. RS-232 communication connector
20
21
23
4 7
10
12
13
22
19
25
6. 6 Easy8051 v6 Development System
MikroElektronika
page
1.0. Connecting the System to your PC
Follow the instructions provided in the relevant manuals and install the program and USB drivers from the product CD. USB
drivers are necessary for the proper operation of the on-board programmer.
In case you already have some of the Mikroelektronika’s compilers installed on your PC, there is no need to reinstall drivers as they
will automatically be installed along with the compiler.
Use the USB cable to connect the Easy8051 v6 development system to your PC. One end of the USB cable with a connector of the
USB B type should be connected to the development system, as shown in Figure 1-2, whereas the other end of the cable (USB A
type) should be connected to your PC. When establishing a connection, make sure that jumper J11 is placed in the USB position as
shown in Figure 1-1.
Turn on your development system by setting the POWER SUPPLY switch to the ON position. Two LEDs referred to by POWER and
USB LINK will illuminate to indicate that your development system is ready to use. Use the on-board 8051prog programmer and
program to dump a code into the microcontroller and employ the board to test and develop your projects.
If you use additional modules, such as LCD, GLCD etc., it is necessary to place them properly on the develop-
ment board before it is turned on. Otherwise, both additional modules and development system can be permanently damaged.
Refer to Figure 1-3 for their proper placing.
Placing additional modules on the board
Connecting USB cable
1 2
Power supply
USB connector
POWER SUPPLY
switch
J11 power supply
selector
DC connector
7. 7Easy8051 v6 Development System
MikroElektronika
page
2.0. Supported Microcontrollers
The Easy8051 v6 development system provides eight separate sockets for 8051 microcontrollers in DIP40, DIP28, DIP20, DIP16,6
DIP14A, DIP14B, PLCC44 and PLCC32 packages. These sockets allow supported microcontrollers in DIP packages to be directly
plugged into the development board.
There are two sockets for 8051 microcontrollers in DIP14 package
provided on the board. Which of these sockets will you use
depends solely on the pinout of the microcontroller in use. The
Easy8051 v6 development system comes with the microcontroller6
in DIP40 package.
Jumpers J7, J8 and J16 next to the DIP40 socket and oscillator
are used for selecting functions of the microcontroller pins.
Jumper Position Function
J7
INT Internal memory in use
EXT Extenal memory in use
J8
OSC Pin P4.0 is supplied with a clock signal from the
external oscillator
P4.0 P4.0 is an I/O pin
J16
OSC Pin P3.2 is supplied with a clock signal from the
external oscillator
P3.2 P3.2 is an I/O pinMicrocontroller sockets
Prior to plugging a microcontroller into the appropriate socket, make sure that the power supply is turned off. It is shown in Figure 2-2
how to correctly plug in a microcontroller. Figure 1 shows an unoccupied DIP40 socket. Place one end of the microcontroller into the
socket as shown in Figure 2. Then put the microcontroller slowly down until all the pins thereof match the socket as shown in Figure
3. Check again that everything is placed correctly and press the microcontroller down easily until it is completely plugged into the
socket, as shown in Figure 4.
Only one microcontroller may be placed on the development board at the same time.
8051 microcontrollers can use either internal (on-board) or external oscillator for the generation of the clock signals. There is a quartz
oscillator used as an external oscillator provided on the board. Signals generated by such an oscillator are used as clock signals for
most supported microcontrollers.
Plugging a microcontroller into appropriate socket
1 3 4
8. 8 Easy8051 v6 Development System
MikroElektronika
page
3.0. On-board USB 2.0 8051prog Programmer
A programmer is a necessary tool when working with microcontrollers as it is used for loading a HEX code into the microcontroller.
The Easy8051 v6 development system includes an on-board 8051prog
microcontroller using the programmer. Figure 3-2 shows the connection between the compiler, program and
microcontroller.
8051prog programmer
For more information on the 8051prog programmer refer to the relevant manual provided in the Easy8051 v6 development
system package.
The principle of the programmer’s operation
On the left side of the
program’s window there is a number
of optionsused for setting parameters
fortheoperationofthemicrocontroller.
On the right side of the window there
is a number of buttons which enable
the HEX code to be loaded into the
microcontroller. Positioned in the
bottom right corner of the window, the
Progress bar enables you to monitor
the programming progress.
2
Write a code in one of the 8051 compilers,
microcontroller using the on-board programmer.
1
3
Compiling program
Loading a HEX code
Write a program in one of the 8051
Use the program
to select the microcontroller to be
programmed and load the .hex
Click the Write button to load the
program into the microcontroller.
2
1
3
Multiplexer
Programmer’s USB connector
Programmer’s chip
9. 9Easy8051 v6 Development System
MikroElektronika
page
8051 microcontrollers are programmed using SPI serial communication which employs MISO, MOSI and SCK microcontroller pins.
During programming, a multiplexer disconnects
the microcontroller pins used for programming
from the rest of the board and connects them
to the 8051prog programmer. After completing
the programming process, these pins are
automatically disconnected from the programmer
and may be used as input/output pins.
4.0. Clock Oscillator
There is a quartz oscillator used as an external clock signal source provided on the board. A quartz crystal, used for stabilizing clock
frequency, is plugged into the appropriate socket and can always be replaced with another one. The maximum value thereof depends
on the microcontroller maximum operating frequency allowed. The function of the P4.0/OSC pin depends on the jumper J8 position.
When this jumper is set to the OSC position, the P4.0/OSC pin will be fed with a clock signal. When it is set to the P4.0 position, the
P4.0/OSC pin is available as input/output pin. The same is with jumper J16 and the MP3.2 pin. When this jumper is set to the OSC
position, the MP3.2 pin will be fed with a clock signal. When it is set to the P3.2 position, the MP3.2 pin is available as an input/output
pin.
Oscillator
Quartz-crystal X2 is placed
in appropriate socket and
can be easily replaced with
another one.
Oscillator schematic
10. 10 Easy8051 v6 Development System
MikroElektronika
page
5.0. Power Supply
The Easy8051 v6 development system may use either of the two following power supply sources:
1. +5V PC power supply through the USB programming cable;
2. External power supply connected to a DC connector provided on the development board.
of 7V to 23V) or DC (in the range of 9V to 32V). Jumper J11 is used as a selector for a power supply source. In order to use the USB
power supply it is necessary to place jumper J11 in the USB position. When using external power supply, jumper J11 should be placed
in the EXT position. The development system is turned on/off by setting the POWER SUPPLY switch to the ON or OFF position,
respectively.
Power supply
Figure 5-2: Power supply source connection schematic
AC/DC connector
USB connector
Power supply voltage
regulator
Jumper J11 as a
power supply selector
DC connector
USB connector
POWER SUPPLY switch
11. 11Easy8051 v6 Development System
MikroElektronika
page
6.0. RS-232 Communication Interface
The USART (universal synchronous/asynchronous receiver/transmitter) is one of the most common ways of exchanging data
between the PC and peripheral components. RS-232 serial communication is performed through a 9-pin SUB-D connector and the
microcontroller USART module. The Easy8051 v6 development system provides one RS-232 port which is enabled by setting swiches
5 and 6 on the DIP switch SW8 to the ON position. The microcontroller pins used in such communication are marked as follows: RX
- receive data and TX - transmit data. Baud rate goes up to 115 kbps.
In order to enable the microcontroller’s USART module to receive input signals with different voltage levels, it is necessary to provide
a voltage level converter such as MAX202C (MAX232).
Figure 6-2: RS-232 module schematic
Make sure that your microcontroller is provided with the USART module as it is not necessarily integrated in all PIC microcontrollers.
Switches 5 and 6 on the DIP switch SW8 are used to interface the RS-232 module to the microcontroller via RX and TX lines, as
shown in Figure 6-2.
Figure 6-1: RS-232 module
Port RS-232 is connected to the microcontroller
RS-232 connector
12. 12 Easy8051 v6 Development System
MikroElektronika
page
7.0. A/D Converter
An A/D converter is used for converting an analog signal into the appropriate digital value. A/D converter is linear, which means that the
converted number is linearly dependent on the input voltage value. The Easy8051 v6 development uses the MCP3204 circuit as an
A/D converter. Voltage to be converted is brought to the input pins of this circuit which then converts it into a 12-bit digital value. Such
number is transferred to the microcontroller via serial communication, while switches 1, 4, 5 and 6 on the DIP switch SW6 should be
set to the ON position. Voltage provided on the A/D converter input pins can be either power supply voltage (5V) or external voltage
brought to the converter via CN12 and CN13 connectors. When the power supply voltage is used, it is necessary to determine which
of the following pins CH0, CH1, CH2 or CH3 is to be supplied with such voltage using jumper J12. In this case, the voltage value on the
A/D converter input can vary between 0V and 5V using potentiometer P3. When the external voltage is used, it is necessary to remove
jumpers J12 in order to prevent voltage interference and provide conversion accuracy. The MCP3204 circuit includes the Vref pin to
receive voltage reference. However, the main purpose of this pin is to determine the range of analog voltage to be converted, hence the
A/D conversion resolution. Jumper J10 is used for selecting one of two possible voltage reference sources. When this jumper is in the
VCC position, the value of the voltage reference is 5V, whereas it amounts to 4.096V when the jumper is set to the position referred to by
4.096. The latter is generated by the MCP1541 circuit.
Figure 7-1: ADC (jumper default position) Figure 7-2: Pin CH0 used as A/D conversion input
Figure 7-3: Microcontroller and A/D converter test inputs connection schematic
A/D conversion is performed via the CH0 pin on A/D convertor
13. 13Easy8051 v6 Development System
MikroElektronika
page
8.0. DS1820 Temperature Sensor
1-wire® serial communication enables data to be transferred over a single communication line while the process itself is under the
control of the master microcontroller. The advantage of such communication is that only one microcontroller pin is used. All slave
devices have by default a unique ID code, which enables the master device to easily identify all devices sharing the same interface.
DS1820 is a temperature sensor that uses 1-wire standard for its operation. It is capable of measuring temperatures within the range
of -55 to 125°C and provides ±0.5°C accuracy for temperatures within the range of -10 to 85°C. Power supply voltage of 3V to 5.5V
is required for its operation. It takes maximum 750ms for the DS1820 to calculate temperature with 9-bit resolution. The Easy8051
v6 development system provides a separate socket for the DS1820. It may use either P1.2 or P3.3 pin for communication with the
microcontroller, which depends on the position of switches 7 and 8 on the DIP switch SW8. In Figure 8-5, switch 7 on the DIP switch
SW8 is in the ON position which means that communication is enabled via the P1.2 pin.
Figure 8-5: DS1820 and microcontroller connection schematic
Figure 8-1: DS1820
connector (DS1820 is
not placed)
Figure 8-2: DS1820
is plugged into the
connector
Figure 8-3: Switch
7 on the DIP switch
SW8 is in the ON
position, DS1820
is connected to the
P1.2 pin
Figure 8-4: Switch
8 on the DIP switch
SW8 is in the ON
position, DS1820
is connected to the
P3.3 pin
NOTE:
Make sure that half-
circle on the board
matches the round
side of the DS1820
Temperature sensor is connected to
the microcontroller via the P1.2 pin
14. 14 Easy8051 v6 Development System
MikroElektronika
page
9.0. LEDs
to use a current limiting resistor. A common LED diode voltage is approximately 2.5V, while the current varies from
1mA to 20mA depending on the type of LED diode. The Easy8051 v6 development system uses LEDs with current I=1mA.
The Easy8051 v6 development has 38 LEDs which visually indicate the state of each microcontroller I/O pin. An active LED diode
indicates that a logic one (1) is present on the pin. In order to enable the pin state to be shown, it is necessary to select appropriate
port PORT0, PORT1, PORT2, PORT3 or PORT4 using the DIP switch SW7.
Figure 9-2: LED diode and port PORT0 connection schematic
Figure 9-1: LEDs
Microcontroller
Notch indicating the SMD LED cathode
PORT0 LEDs are turned on
15. 15Easy8051 v6 Development System
MikroElektronika
page
10.0. Push Buttons
The logic state of all microcontroller digital inputs may be changed using the push buttons. Jumper J6 is used to determine the logic
state to be applied to the desired microcontroller pin by pressing the appropriate push button. The purpose of the protective resistor
is to limit the maximum current, thus preventing a short circuit from occurring. If needed, advanced users may shorten such resistor
using jumper J9. Right next to the push buttons, there is a RESET button which is not connected to the mRST pin. The reset signal is
generated by the programmer.
Figure 10-2: Push buttons and port PORT0 connection schematic
Figure 10-1: Push buttons
Pressure on any push button, when jumper J6 is in the VCC position, will cause a logic one (5V) to be applied to appropriate
microcontroller pin as shown in Figure 10-2.
Push buttons used for
digital inputs simulation
Jumper J6 in the VCC position
Jumper J9 used for shorten-
ing the protective resistor
RESET button
Jumper J6 used for se-
lecting logic state to be
applied to the pin by
pressing a button
16. 16 Easy8051 v6 Development System
MikroElektronika
page
11.0. MENU Keypad
There is a group of push buttons on the Easy8051 v6 development system which constitute a navigation keypad called MENU. The
main feature of the MENU keypad is the arrangement of its push buttons marked as left, right, up and down arrows. Besides, there are
also two additional push buttons referred to by ENTER and CANCEL. MENU push buttons are connected in the same way as the port
PORT3 push buttons. Their function is determined by the user when writing the program for the microcontroller.
Figure 11-2: MENU keypad and microcontroller connection schematic
MENU keypad
Have in mind when writing a program
for the microcontroller that the MENU
keypad is connected to the PORT3
port
MENU keypad push buttons are connected in the same manner as port PORT3 push buttons
17. 17Easy8051 v6 Development System
MikroElektronika
page
12.0. 4x4 Keypad
The 4x4 keypad is a standard alphanumeric keypad connected to the microcontroller PORT0. The operation of such keypad is based on
to one of input pins. It is determined which of the push buttons is pressed from within the software. For example, by pressing button 6, a
logic one (1) will appear on the P0.5 pin. After that, by applying a logic one (1) to each of the following output pins P0.0, P0.1, P0.2 and
P0.3 it is possible to determine which of the push buttons is pressed.
4x4 keypad and microcontroller connection schematic
Jumper J1 is in the GND
position. Pins P0.4, P0.5, P0.6
and P0.7 are connected to
pull-down resistors via DIP
switch SW1.
4x4 keypad 4x4 keypad performance
18. 18 Easy8051 v6 Development System
MikroElektronika
page
13.0. On-board 2x16 LCD Display
The on-board LCD display is connected to the microcontroller via the port expander. In order to enable such a display to be used it
is necessary to set switches 1-6 DIP on the DIP switch SW9 to the ON position, thus connecting the on-board display’s pins to port
expander’s port PORTB. SPI communication between the port expander and microcontroller is enabled by means of the DIP switch
SW6. Potentiometer P5 is used for the display contrast adjustment. Unlike additional LCD display, the on-board LCD display has no
backlight, whereas both displays shows digits in two lines each containing up to 16 characters of 7x5 pixels.
On-board LCD display connection schematic
On-board 2x16 LCD display
Potentiometer P5 for the
display contrast adjustment
DIP switch SW9 used to
enable on-boad display
19. 19Easy8051 v6 Development System
MikroElektronika
page
14.0. 2x16 LCD Display
The Easy8051 v6 development system provides an on-board connector for alphanumeric 2x16 LCD display to be plugged into. Such
connector is linked to the microcontroller through the PORT2 port. Potentiometer P2 is used for display contrast adjustment. The
switch marked as LCD-BCK on the DIP switch SW7 is used to turn on/off the display backlight.
Communication between the LCD display and the microcontroller is performed in a 4-bit mode. Alphanumeric digits are displayed in
two lines each containing up to 16 characters of 7x5 pixels.
Alphanumeric 2x16 LCD display connection schematic
Figure 14-1: Alphanumeric 2x16 LCD display connector Figure 14-2: Alphanumeric 2x16 LCD display
LCD display backlight is turned on
Contrast adjusting
potentiometer
20. 20 Easy8051 v6 Development System
MikroElektronika
page
15.0. 128x64 Graphic LCD Display
128x64 graphic LCD display (128x64 GLCD) provides an advanced method for displaying graphic
messages. It is connected to the microcontroller through PORT0 and PORT2. GLCD display has the
screen resolution of 128x64 pixels which allows you to display diagrams, tables and other graphic content.
Since the PORT2 port is also used by 2x16 alphanumeric LCD display, you cannot use both displays simultaneously. Potentiometer
P1 is used for the GLCD display contrast adjustment. Switch 7 (GLCD-BCK) on the DIP switch SW7 is used to turn the display
backlight on/off.
GLCD display connection schematic
GLCD display backlight is turned on
GLCD connectorGLCD display
GLCD connector
Contrast adjustment
potentiometer
21. 21Easy8051 v6 Development System
MikroElektronika
page
16.0. Seven-Segment Display
The Easy8051 v6 development system also includes a seven-segment display with four digits that uses the PORT0 and PORT1
microcontroller ports for its operation. Between the PORT0 port and seven-segment display there is a ULN2803 circuit used for
running the segments of the seven-segment display. The operation of such display is enabled by multiplexing, which means that the
operation of all four digits requires only eight lines connected to display segments and four lines for the activation of each digit. The
the operation of the seven-segment display it is necessary to set all switches on the DIP switch SW10 as well as switches 1-4 on the
DIP switch SW8 to the ON position.
Figure 16-1: GLCD display
The seven-segment display’s time multiplexing is based on fast turning display segments on/off in such a manner that one gets
impression that all digits are active simultaneously. The microcontroller feeds display segments with signals via the PORT0 port,
whereas the PORT1 port selects one of them to display appropriate number. In the example shown in Figure 16-2, signals from the
microcontroller cause the DIS3 display segments to show number 5. When such display is off, the microcontroller sends signal to
the next digit (DIS2), via the P1.2 pin, to show number 6. The same procedure applies to digits DIS1 and DIS0. When one cycle is
complete, another one automatically starts and digits successively change on dislays DIS3, DIS2, DIS1, DIS0, DIS3, DIS2 etc.
Figure 16-2: Showing a digit on the seven-segment display DIS3
Red lines mark the signal route from the
microcontroller to the seven-segment display
DIS3 segments.
DIP switch SW10 turns the
seven-segment display
digits on
Seven-segment digit
22. 22 Easy8051 v6 Development System
MikroElektronika
page
Seven-segment display connection schematic
Seven-segment display is enabled
Figure 16-3: Showing a digit on the seven-segment display DIS2
Red lines mark the signal route from the
microcontroller to the seven-segment display
DIS2 segments.
23. 23Easy8051 v6 Development System
MikroElektronika
page
17.0. Input/Output Ports
Along the right side of the development system, there are nine 10-pin connectors which are connected to the microcontroller I/O
ports. Pins P1.5, Pi.6 and P1.7 are not directly connected to the appropriate 10-pin connector, but via programmer’s multiplexer.
DIP switches SW1-SW5 enable each connector pin to be connected to one pull-up/pull-down resistor. Whether port pins are to be
connected to a pull-up or pull-down resistor depends on the position of jumpers J1-J5.
Figure 17-4: Port PORT0 connection schematic
J2 in the
pull-down positon
J2 in the
pull-up position
Jumper for pull-up/pull-
down resistor selection
I/O ports
DIP switch to turn
on pull-up/pull-down
resistors for each pin
2x5 PORT0 male connector
Additional module connected
to PORT1
Microcontroller port PORT0 pins are
connected to pull-down resistors
24. 24 Easy8051 v6 Development System
MikroElektronika
page
Pull-up/pull-down resistors enable you to set the logic level on all microcontroller input pins when they are in idle state. Such level
depends on the position of the pull-up/pull-down jumper. The microcontroller pin P0.0 with the relevant DIP switch SW1, jumper J1
and push button P0.0 with jumper J6 are used here for the purpose of explaining the performance of pull-up/pull-down resistors. The
principle of their operation is identical for all the microcontroller pins.
In order to enable the PORT0 port to be
necessary to set jumper J1 to the Down position.
This enables any port PORT0 pin to be provided
with a logic zero (0V) in idle state over jumper J1
and 8x10k resistor network. To provide the P0.0
pin with such a signal, it is necessary to set the
P0.0 switch on the DIP switch SW1 to the ON
position.
As a result, every time you press the P0.0 push
button, a logic one (VCC) will appear on the P0.0
pin, provided that jumper J6 is set to the position
referred to by VCC.
In order to enable port PORT0 pins to be
connected to pull-up resistors and port input pins
to be activated with logic zero (0), it is necessary
to set jumper J1 in position referred to as Up
and jumper J6 in position referred to as GND.
This enables any port PORT0 input pin to be
provided with a logic one (5V) in idle state over
the 10k resistor. The P0.0 switch should be set
to the ON position afterwards.
As a result, every time you press the P0.0 push
button, a logic zero (0) will apear on the P0.0
pin.
In case jumpers J1 and J6 have the same logic
state, pressure on any button will not cause input
pins to change their logic state.
Figure 17-5: Jumper J1 in pull-down and jumper J6 in pull-up position
Jumper J1 in pull-up and jumper J6 in pull-down position
Jumpers J1 and J6 in the same position
25. 25Easy8051 v6 Development System
MikroElektronika
page
18.0. Port Expander (Additional Input/Output Ports)
The SPI communication lines and MCP23S17 circuit provide the Easy8051 v6 development system with a means of increasing the
number of available I/O ports by two. If the port expander communicates to the microcontroller over the DIP switch SW6 then the
microcontroller pins P3.5, P3.4, P3.7, P1.7, P1.6 and P1.5, used for the operation of port expander, cannot be used as I/O pins.
Figure 18-1: Port expander
PORTB
Figure 18-2: Position of DIP switch SW6
when the port expander is enabled
PORTA
Jumper for selecting
pull-up/pull-down resistor
The microcontroller communicates to the port expander (MCP23S17 circuit) using serial communication (SPI). The advantage of such
MOSI - Master Output, Slave Input (microcontroller output, MCP23S17 input)
MISO - Master Input, Slave Output (microcontroller input, MCP23S17 output)
SCK - Serial Clock (microcontroller clock signal)
CS - Chip Select (enables data transfer)
RST - Reset
Data transfer is performed in both directions simultaneously by means of MOSI and MISO lines. The MOSI line is used for transferring
data from the microcontroller to the port expander, whereas the MISO line transfers data from the port expander to the microcontroller.
The microcontroller initializes data transfer when the CS pin is driven low (0V). It causes the microcontroller to send clock signal
(SCK) and therefore start data exchange. The principle of operation of the port expander’s ports 0 and 1 is almost identical to the
operation of other ports on the development system. The only difference here is that the port signals are received in a parallel format.
The MCP23S17 then converts such signals into serial format and sends them to the microcontroller. The result is a reduced number
of lines used for sending signals from ports 0 and 1 to the microcontroller and vice versa.
SPI communication block diagram
Jumpers to determine the
port expaner’s hardware
address
Jumpers J15 are used to determine the port expander’s hardware
address. These jumper are also used to provide the port
expander’s pins A2, A1 and A0 with a logic one (1) or zero (0).
They should be placed in the low position (logic 0) by default.
26. 26 Easy8051 v6 Development System
MikroElektronika
page
Figure 18-4: Port expander schematic
DIP switch SW6 enables port expander
28. Easy 8051 v6
™
User manual
All Mikroelektronika´s development systems represent irreplaceable tools for
programming and developing microcontroller-based devices. Carefully chosen
components and the use of machines of the last generation for mounting and
testing thereof are the best guarantee of high reliability of our devices. Due to
simple design, a large number of add-on modules and ready to use examples,
all our users, regardless of their experience, have the possibility to develop
DevelopmentSystem
Ifyouwanttolearnmoreaboutourproducts,pleasevisitourwebsiteatwww.mikroe.com
Ifyouareexperiencingsomeproblemswithanyofourproductsorjustneedadditionalinformation,pleaseplaceyourticketat
www.mikroe.com/en/support