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Part Manufacturer Description Datasheet BUY
J2014004 GE Critical Power Compact Power Line Shelves, RS485 shelf for the CP3500 rectifier visit GE Critical Power
CP841A_3C3R_S (150032047) GE Critical Power Galaxy Pulsar Edge Controller for Compact Power Line Applications with Security Features Update visit GE Critical Power
GP100H3R48TEZ-IN GE Critical Power GP100 6 kW True Three Phase Rectifier, 110A rectifier with isolated RS485 communications 48V visit GE Critical Power
J2014003 GE Critical Power Compact Power Line Shelves, Dual I2C shelves for the CP3500 rectifier visit GE Critical Power
GP100H3M54TEZ GE Critical Power GP100 6 kW True Three Phase Rectifier, 110A rectifier with isolated dual I2C communications 54V visit GE Critical Power
J2014001L422N GE Critical Power GP100, 3&934;-480, RS485 communications, controller slot, RJ45 terminations, includes a L401 and a L402 shelves in the same enclosure. Hardware included visit GE Critical Power

the program microcontroller with optocoupler

Catalog Datasheet MFG & Type PDF Document Tags

pic18f4520 pin diagram

Abstract: the program microcontroller with optocoupler .2 Install PICPLC8A programmer software to enable a program to be transferred from PC to the microcontroller , microcontroller via the PICflash2 programming software supplied with the board. Figure 7 USB 2.0 programmer , button circuit; 4. On-board USB 2.0 programmer; 15. MCU socket with PIC18F4520 microcontroller , read a program from the chip or write another one into it. The product CD provides numerous simple program examples to make your first steps Easy. CONNECTING THE SYSTEM Apart from this manual, the
MikroElektronika
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pic18f4520 pin diagram the program microcontroller with optocoupler RS-232 RS-485 IDC-10 RS485 DIP40

U840 diode

Abstract: OPTO-coupler 3F . Jumpers J18 (P5.0/C0Tx) and J19 (P5.1/C0Rx) connect the corresponding microcontroller port pins with the , /RxD1) connect the corresponding microcontroller port pins P5.2 and P5.3 with the TxDC and RxDC inputs , the Chip Select signals on the microcontroller are used (/CE0, /CE1 and /PCE0-/PCE3 with 1 MByte , -015) will initially be delivered in PCB version 3087.0. Due to an error in the microcontroller data sheet , -594e_1.pdf. 1. Signals of CAN1 with TTL level If the CAN1 interface signals are to be used with their TTL level
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DS80C390 U840 diode OPTO-coupler 3F te mini project using microcontroller RTC-8564 RSC1308 D-55129 D-55135 CORE-DS80C390 PCM-015 L-594

SMD A18a

Abstract: RS485 to db9 pinout pads 1+2 with an 1 kOhm resistor. This default configuration means that the program stored in the , : Modular Development and Expansion Board Concept with the phyCORE-ADuC812 , Settings of the phyCORE Development Board LD 5V with phyCORE-ADuC812 , ). 78 Figure 28: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board with , for CAN Plug P2A using the CAN Transceiver on the Development Board with Galvanic Separation
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SMD A18a RS485 to db9 pinout rs485 transciever cable DS2401 RTC-8563 ic power 22D regulator SJA1000 L-461

plcc44 socket mechanical data

Abstract: DS2401 technology · populated with the Philips 16-bit XACx microcontroller (PLCC-44 packaging) featuring 2.0B CAN , connected to CAN transceiver at U6 CAN receive line (CANRx) of the microcontroller not connected with , Board Concept with the phyCORE-PXACx , Jumper Settings of the phyCORE Development Board LD 5V with phyCORE-PXACx , ) . 75 Figure 26: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board with
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plcc44 socket mechanical data mini project using 8051 microcontrollers programming 29F400 L-476

SMD A18a

Abstract: dual 7 segment display 18: Modular Development and Expansion Board Concept with the phyCORE-ADuC812 , Settings of the phyCORE Development Board LD 5V with phyCORE-ADuC812 . 67 , ) . 78 Figure 28: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board with , for CAN Plug P2A using the CAN Transceiver on the Development Board with Galvanic Separation , . Precise specifications for the Analog Devices ADuC812 or ADuC824 microcontroller can be found in the
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dual 7 segment display G100 Philips SJA1000 standalone CAN dual 7 segment led display uc005 31D DIODE CORE-591AD CORE-591A A1000

PCM-997

Abstract: Si9200EY (Connector Side) .7 Figure 4: Pinout of the phyCORE-Connector (Top View, with Cross , .57 Figure 10: Modular Development and Expansion Board Concept with the phyCORE-167HS/E , the phyCORE Development Board HD200 with phyCORE-167HS/E .66 , ) . 84 Figure 22: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board with , of the DB-9 Plug P2B (CAN Transceiver on Development Board, only with C167CS
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PCM-997 Si9200EY P2B E7 29F160B 82c25 CAN-H11 CORE-167HS/E L-615

fn 155

Abstract: ST19 technology · populated with the ST Microelectronics ST10F269 microcontroller (QFP-144 packaging) featuring , or ST10F168 microcontroller. The second CAN interface is only available with the ST10F269 (refer to , ).7 Figure 4: Pinout of the phyCORE-Connector (Top View, with Cross Section Insert , .59 Figure 10: Modular Development and Expansion Board Concept with the phyCORE-ST10HS/E , the phyCORE Development Board HD200 with phyCORE-ST10HS/E .68 Figure
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fn 155 ST19 ST19F269 29f200b CS8900A J20A CORE-ST10HS/E L-616

ST10F269

Abstract: st10 Bootstrap interface is not possible with the ST10F168 or ST10F269 microcontroller. The second CAN interface is only , /ST10F269.6 Figure 3 Pinout of the phyCORE-connector (Top View, with Cross , .51 Figure 8: Modular Development and Expansion Board Concept with the phyCORE-ST10F168/ST10F269 , the phyCORE Development Board HD200 with phyCORE-ST10F168/ST10F269.60 Figure 13 , ) . 78 Figure 21: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board with
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st10 Bootstrap st10f168 date code ST10-F168 ST10F169 JP16 JP35 CORE-ST10F168/ CORE-ST10F269 CORE-ST10F168/ST10F269 L-614

40d49a

Abstract: Si9200EY only available with Infineon C167CS microcontroller. These pins are solely connected to GND of the , interface is only available with Infineon's C167CS controller (refer to the microcontroller User`s Manual , C167CR, pin 84 controls the oscillator Watchdog. In contrast, when a microcontroller with on-chip Flash , .49 Figure 8: Modular Development and Expansion Board Concept with the phyCORE-167CR/167CS , the phyCORE Development Board HD200 with phyCORE-167CR/167CS .58 Figure 13
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40d49a C167 instruction set CORE-167CR/ CORE-167CS CORE-167CR/167CS L-527

RIACON Type 169, RM 3.5mm

Abstract: TMCM-109-57 microcontroller with the TMCL (Trinamic Motion Control Language) operating system. The motion control real-time , is equipped with a 16kByte EEPROM attached to the microcontroller. The EEPROM can store TMCL , pluggable screw terminal connectors. The TMCM-109-57 comes with the PC based software development , . ramp calculation are performed onboard. The TMCL program can be stored in the on-board EEPROM for stand-alone operation. The firmware of the module can be updated via the serial interface. With the
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NEMA-23 RIACON Type 169, RM 3.5mm riacon RIACON Type 169 RM 3.5mm riacon typ 49 riacon* 6 pin male connector sw 357 optocoupler PD-109-57

U335

Abstract: i2c to RS-485 converter Computer populated with the Atmel Wireless and Microcontrollers T89C51CC01 microcontroller featuring , populated with the Atmel W&M T89C51CC01 microcontroller (PLCC-44 packaging) featuring 2.0A and 2.0B CAN · , connected with Reset input Port pins of the microcontroller I/O Differential A signal of the RS , subsequently run during runtime, as is the case with a Monitor program. The location of the optional von , Expansion Board Concept with the phyCORE-T89C51CC01 .50
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U335 i2c to RS-485 converter 1B28C CORE-T89C51CC01 L-579

UC3845 dc dc design tool

Abstract: ST6210 the ST6210 microcontroller via this optocoupler. The switching frequency is fixed at 100kHz in order , consumption in run mode of the ST6210 HCMOS micro-controller (typically 3mA with an 8MHz oscillator, reducing , controlled by an economical microcontroller, the ST6210, a member of the ST6 microcontroller family. The , to 7.2V). The supply to the microcontroller is simply generated from an auxiliary winding of the , BATTERY CHARGING USING ST6210 The power converter is totally controlled from the primary side with a
STMicroelectronics
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UC3845 dc dc design tool mobile battery charging automatic off uc3845 SCHEMATIC smps 48V SMPS BATTERY CHARGER uc3845 isolated smps uc3845 schematic AVS10

uc3845 isolated smps

Abstract: uc3845 half bridge battery charger is controlled by a low cost microcontroller, the ST6210. This control is compatible with , the microcontroller via this optocoupler. The switching frequency has been fixed at 100kHz, in , microcontroller, additional monitoring functions can be easily added to the ultra fast charge control program , microcontroller, the ultra fast charging is stopped and the power converter supplies the battery with a stand-by , is successively turned on and off at 50Hz with a small duty cycle of 0.03. The microcontroller
STMicroelectronics
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uc3845 half bridge UC 3845 uc3845 smps uc3845 application smps 220V transformerless power supply AN433

transistor SMD p94

Abstract: transistor SMD p95 mm) achieved through modern SMD technology · populated with the Infineon XC167CI microcontroller , .5 (A21) of the microcontroller (see controller Data Sheet) (closed)1 CAN0_TxD signal with TTL level , .59 Figure 11: Modular Development and Expansion Board Concept with the phyCORE-XC167 , Settings of the phyCORE Development Board HD200 2.5V with phyCORE-XC167 .68 , ) . 89 Figure 25: Pin Assignment of the DB-9 Plug P2B (CAN Transceiver on Development Board with
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transistor SMD p94 transistor SMD p95 smd transistor 43B smd transistor 46B xc167 protection transistor tip 41a CORE-XC167 TLE6250 L-623

CS8900A-IQ

Abstract: DS2401 mm) achieved through modern SMD technology · populated with the Infineon XC161CJ microcontroller , .5 (A21) of the microcontroller (see controller Data Sheet) (closed)1 CAN0_TxD signal with TTL level , .57 Figure 11: Modular Development and Expansion Board Concept with the phyCORE-XC161 , Settings of the phyCORE Development Board HD200 2.5V with phyCORE-XC161 .66 , ) . 87 Figure 25: Pin Assignment of the DB-9 Plug P2B (CAN Transceiver on Development Board with
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CS8900A-IQ CORE-XC161 L-622

WS 78L05

Abstract: TRANSFORMER 9V PC interface. Physically the micro-controller board plugs into the evaluation module with its opto-coupler facing the mains connector (SK1). It shares the SPI bus with the SA8807A onboard LCD controller , MICROCHIP datasheet. If the intention is to program the board Figure 7: Micro-controller board http , experimentation with the microcontroller module and as such shouldn't be seen as the only possible implementation , support Micro-controller / PC operation DESCRIPTION This Application Note describes the PM9903BPE
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WS 78L05 TRANSFORMER 9V trivector meter block diagram pic 16f876 circuits spi 220u 16v capacitor 33N capacitor SA9903B

TLE6250v33

Abstract: BGA176 Computer populated with the ATMEL AT91M55800A microcontroller. Its universal design enables its insertion , SMD technology · populated with the ATMEL AT91M55800A microcontroller (BGA-176 packaging) · , .6 Figure 4: Pinout of the phyCORE-Conector (Top View, with Cross Section Insert , .59 Figure 12: Modular Development and Expansion Board Concept with the phyCORE-AT91M55800A , the phyCORE Development Board HD200 with phyCORE-AT91M55800A .68 Figure 17
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TLE6250v33 BGA176 ATMEL at25640 example 29LV160B VCC232 82C900 COREAT91M55800A CORE-AT91M55800A L-618

RIACON Type 169 RM 3.5mm

Abstract: TMCM-109-57 -109 5.1 System Architecture The TMCM-109 integrates a microcontroller with the TMCL (Trinamic Motion , pluggable screw terminal connectors. The TMCM-109-57 comes with the PC based software development , . ramp calculation are performed onboard. The TMCL program can be stored in the on-board EEPROM for stand-alone operation. The firmware of the module can be updated via the serial interface. With the , TMC428 motion controller, a TMC249 stepper motor driver, the TMCL program memory (EEPROM) and the host
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step motor driver 10A optocoupler 357 riacon 49
Abstract: , load your program into the microcontroller via the PICflash2 programming software, which is supplied , . Since the voltage levels of a microcontroller and PC are not directly compatible with each other, a , connect it to the PC. Please use USB ports from the back of the PC, with direct contact to the motherboard , use. You should try to read a program from the chip or to load an example from the examples folder , microcontrollers to be interfaced with external circuits and a broad range of peripheral devices, allowing the MikroElektronika
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PICPLC16

p120 optocoupler

Abstract: p121 optocoupler Computer populated with the Philips LPC2292/94 microcontroller. Its universal design enables its insertion , SMD technology · populated with the Philips LPC2292/94 microcontroller (TQPF-144 packaging) · , . 8 Figure 4: Pinout of the phyCORE-Connector (Top View, with Cross Section Insert , . 73 Figure 15: Modular Development and Expansion Board Concept with the phyCORE-LPC2292/94 , Settings of the phyCORE Development Board HD200 with phyCORE-LPC2292/94 . 82 Figure 20: Connecting the
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p120 optocoupler p121 optocoupler J204A FET J601 RN600 RESISTOR j608 CORE-LPC2292/94 L-658
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