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DOLPHIN-WUART-REF Texas Instruments Frequency Hopping Spread Spectrum (FHSS) Wireless UART Chipset Reference Design visit Texas Instruments
TL16C552AIFNG4 Texas Instruments Dual UART with 16-Byte FIFOs & Parallel Port 68-PLCC visit Texas Instruments
TL16C754BFN Texas Instruments Quad UART with 64-Byte FIFO 68-PLCC -40 to 85 visit Texas Instruments Buy
TL16C554AFNG4 Texas Instruments Quad UART with 16-Byte FIFOs 68-PLCC 0 to 70 visit Texas Instruments
TL16C554APNRG4 Texas Instruments Quad UART with 16-Byte FIFOs 80-LQFP 0 to 70 visit Texas Instruments
TL16C450FNG4 Texas Instruments Single UART Without FIFO 44-PLCC 0 to 70 visit Texas Instruments

lin uart c code

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lin uart c code

Abstract: AP08083 / code into the internal memory of the device (XRAM or FLASH) via a UART interface. In variants that , variants for BSL mode: · LIN Variant (e.g: XC878L) · UART Variant (e.g: XC878) The access modes for , These files can be compiled in Visual C 6.0. Please note that the example code also provides routines , : verify.a51 : assembly code to verify the flash content (UART). verify.hex : hex file generated from the above assembly code. verify_lin.a51 : assembly code to verify the flash content (LIN).
Infineon Technologies
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AP08083 lin uart c code ENHANCED LIN INTERFACE lin uart protocol xc800

AP08084

Abstract: XC800 / code into the internal memory of the device (XRAM or FLASH) via a UART interface. In variants that , code to be loaded into XRAM These files can be compiled in Visual C 6.0. Please note that the , () to program these bytes. After a hardware reset, the example code has to send a LIN header frame , . If UART or LIN auto detection is enabled, the function will first send byte: 0x80 to detect if it , / Verification Using UART Protocol in Fast LIN Model Header Block Byte 0 Byte 1 Byte 2 Byte 3
Infineon Technologies
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AP08084 XC864 uart protocol

ATmega8515 master slave routine code

Abstract: 2563a of internal RC oscillator via UART LIN 2.0 compatible synchronization/calibration to within +/-2% of , UART module makes a good choice for a LIN implementation. This application note uses the UART to , obtained by compiling the source code for ATtiny2313 with IAR C/EC+ Compiler for AVR v3.20A with no , configurations Synchronization method Timer resolution Code size LIN 8 bits ~ 370 B LIN 9 , (UBRR) value needed for the UART to communicate at SYNCH_FREQUENCY. 5. If LIN synchronization is
Atmel
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AVR054 ATmega8515 master slave routine code 2563a ATtiny2313 4Mhz C code for ATMEGA8 Application Note ATTINY2313

pressure sensor interface with 8051

Abstract: QFN10 , 12-bit ADC, dedicated LIN 2.0 controller, 16-bit timers/PWM, SPI, UART and six I/O lines in a small , Memory (peak) (bytes) I/O Pins 8 kB 25 256 16 Serial Buses LIN 2.0 SPI, UART Timers , 3 ±0.5% 12-bit, 16-ch., 200 ksps C8051F533A 4 kB 25 256 16 LIN 2.0 SPI, UART , as well as our LIN 2.0 SPI, UART C8051F537A 2 kB 25 256 16 UART, SPI 3 3 , manufacturing partners are all ISO/TS C8051F520A 8 kB 25 256 6 LIN 2.0, SPI, UART 16949
Silicon Laboratories
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QFN10 QFN20 AEC-Q100 pressure sensor interface with 8051 rain sensor automotive C8051F521A QFN-20 qfn20 power C8051F53 C8051F52 TSSOP20

UART Controller

Abstract: AVR286 AVR286: LIN Firmware Base for LIN/UART Controller LIN Features The LIN (Local Interconnect , Kbit/s. 8-bit Microcontroller Application Note 1. Atmel® LIN/UART Controller The LIN/UART , Frames Support Capabilities 1.2 Controller Overview The LIN/UART Controller is designed to match , Description This application note provides a firmware base (drivers) to use the LIN/UART Controller on the , the LIN/UART Controller. A minimum knowledge of LIN specification v1.x or v2.x (www.lin-subbus.org
Atmel
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UART Controller ATMega32 Atmel 542 lin uart Lin_get_it 32/64/M1/C1
Abstract: unique, embedded SLIC not LIN communication MC9S08SL8MTL 28 TSSOP -40°C to +125°C module , +105°C MC9S08SL8VTJ 20 TSSOP -40°C to +105°C percent over UART solutionsâ'"only two MC9S08SL8VTL 28 TSSOP -40°C to +105°C interrupts per LIN message MC9S08EL32CTJ 20 TSSOP , driver code means less flash required for given applicationâ'"use flash for your application, not LIN communication â'¢ SLIC does not require oscillator trimming, unlike UART or bit-banged LIN solutions Freescale Semiconductor
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S08EL 9S08EL32 9S08EL16 9S08SL16 9S08SL8 M68CYCLONEPROE

LIN source code

Abstract: LIN protocol basics between LIN and I2C/CAN/regular Uart 13.1 I2C vs. LIN - I2 C is often compared to LIN. If one , ? . 3 6. Can I use LIN with just a UART - without a transceiver , ? . 5 13. Comparison between LIN and I2C/CAN/regular Uart , standardized approach of LIN and of the Renesas source code gives the possibility of module re-use in multiple , crystal for my LIN devices?' - LIN is often compared to I2C or a simple UART based serial protocol such
Renesas Technology
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REU05B0070-0101 LIN source code LIN protocol basics LIN source code renesas REU05B0069-0101 REU05B0069-0101/R

ADuC703x

Abstract: lin uart c code the LIN Hardware Synchronization (LHS) functionality. LIN Baud Rate Calculations Example C Code. This section provides an example of C code implementation of the calculations explained in the LIN Baud Rate , C CODE When programming in C, the preceding equations can be simply written by using the , : 781.329.4700 · Fax: 781.461.3113 · www.analog.com ADuC703x Series LIN Baud Rate Calculations by Aude Richard INTRODUCTION LIN FRAME HEADER The purpose of this application note is to familiarize the
Analog Devices
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AN-891 ADuC703x application note for checksum calculation AN06488-0-11/06

MB91F469G

Abstract: MB91F469 ) . 20 3.4 LIN / UART Connectors (X2 ­ X5 , L M N 1 2 2 CAN 0 3 UART/LIN 0/4 1 4 7 CAN 1 6 UART/LIN 1/5 5 10 CAN 2 9 UART/LIN 2/6 8 13 UART/LIN 3/7 12 CAN 3 11 ICU2/TIN2 , CAN 0 3 UART/LIN 0/4 1 4 CAN 1 6 UART/LIN 1/5 5 7 UART/LIN 2/6 8 9 10 UART/LIN 3/7 11 12 ICU2/TIN2 13 ICU0/TIN0 14 3 4 5 6 7 8 9 10 11 12 13 14
Fujitsu
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MB91460 MB91F469QA MB91F469G MB91F469 MB91F469GB MB91469G MB91467 MB91F469Q FMEMCU-UG-910027-19 SK-91469G-256BGA SJ/T11363-2006

uPD70F4017

Abstract: uPD70F3592 -pin 50 MHz, 80-pin 50 MHz, 100/121-pin 50 MHz, 128-pin 50 MHz, 144-pin CAN × 1 ch, UART supporting LIN , * * Middleware from a partner company is used. 6 CubeSuite automatically generates source code (a device driver program) to control the microcontroller peripherals (such as the timers, UART, and A/D converter). Speech synthesis* Middleware Browsers* Code generated easily Top screen Human , , generate code for microcontroller peripherals, and execute high-speed building. combination with
Renesas Technology
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uPD70F4017 uPD70F3592 uPD70F3564 uPD70F3554 uPD70F4000 uPD70F3379 V850E1 V850ES V850E2 V850E2M R01CL0003EJ0200
Abstract: JTAG and LIN On-chip peripherals SAEJ2602/LIN 2.0-compatible (slave) support via UART with hardware , XTAL2 WU GPIO PORT UART PORT SPI PORT LIN 3× TIMERS WDT WU TIMER PRECISION REFERENCE , voltage, VDD = 18 V LIN recessive output voltage Rev. C | Page 7 of 132 0.8 0.8 VDD 0 0 0.1 , Figure 6. LIN 2.0 Timing Specification Rev. C | Page 14 of 132 tRX_PDF 07474-006 tRX_PDR , Code Resolution is expressed in bits. Rev. C | Page 19 of 132 ADuC7036 THEORY OF OPERATION The Analog Devices
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C7036 SAEJ2602/LIN MO-220-VKKD-2 CP-48-1 C7036BCPZ C7036BCPZ-RL

USBMULTILINKBDME

Abstract: 9S08EL32 performance, shorten · SLIC can handle any LIN speed on any LIN S9S08EL32F1VTJ 20 TSSOP -40°C to , oscillator · SLIC eliminates many steps normally Code reuse for many applications, regardless of LIN , , unlike UART or bit-banged LIN solutions, eliminating a manufacturing step required by UART solutions , S08EL and SL 8-bit Microcontrollers Automate LIN Slave Message Handling with SLIC Technology Overview embedded slave Local Interconnect Network (LIN) interface controller (SLIC) and EEPROM help to
Freescale Semiconductor
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USBMULTILINKBDME S9S08EL16F1MTL S9S08SL8F1CTJ S9S08SL16F1VTJ Occupancy Sensor S9S08SL16F1MTL CWS-H08-STDED-CX CWS-H08-PROED-CX

ADUC7030

Abstract: ADuC7034 - TEMPERATURE SENSOR PRECISION REFERENCE GPIO PORT UART PORT SPI PORT LIN 3XTIMERS WDT W/U TIMER , user code. 29 These numbers are not production tested, but are supported by LIN compliance testing , retention In-circuit download via JTAG and LIN On-chip peripherals LIN 2.0-compatible (slave) support via UART with hardware synchronization Flexible wake-up I/O pin, master/slave SPI® serial I/O 9-pin GPIO , specified for -40°C to +115°C operation High precision ADCs Dual channel, simultaneous sampling, 16
Analog Devices
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ADUC7030 ADuC7034 C7034 PR07116-0-10/07

D2BSD

Abstract: lin bus example C codes JTAG and LIN On-chip peripherals SAEJ2602/LIN 2.0-compatible (slave) support via UART with hardware , XTAL2 WU GPIO PORT UART PORT SPI PORT LIN 3× TIMERS WDT WU TIMER PRECISION REFERENCE , Package and temperature range 48-lead, 7 mm × 7 mm LFCSP Fully specified for -40°C to +115°C operation , from 1 Hz to 8 kHz On-chip ±5 ppm/°C voltage reference Current channel Fully differential, buffered , oscillator On-chip low power oscillator External (32.768 kHz) watch crystal JTAG port supports code
Analog Devices
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D2BSD lin bus example C codes HBM-ADI0082 jedec package MO-220-VKKD-2 AN-881 AN-946 C7036CCPZ C7036CCPZ-RL C7036DCPZ C7036DCPZ-RL C7036QSPZ D07474-0-4/10

CIRCUIT SCHEMATIC CAR ECU

Abstract: 7474 for shift register JTAG and LIN On-chip peripherals SAEJ2602/LIN 1.3/LIN 2.0-compatible (slave) support via UART with , BUF XTAL2 WU GPIO PORT UART PORT SPI PORT LIN 3× TIMERS WDT WU TIMER PRECISION , monitor mode Package and temperature range 48-lead, 7 mm × 7 mm LFCSP Fully specified for -40°C to +115°C operation High precision ADCs Dual channel, simultaneous sampling, 16-bit, - ADCs Programmable ADC throughput from 1 Hz to 8 kHz On-chip ±5 ppm/°C voltage reference Current channel Fully
Analog Devices
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CIRCUIT SCHEMATIC CAR ECU 7474 for shift register SCHEMATIC CAR ECU C7036BCPZ-RL1 C7036CCPZ1 C7036CCPZ-RL1 D07474-0-8/09

ARM7TDMI Technical Reference Manual

Abstract: ADUC7033 On-chip peripherals LIN 2.0 (slave) compatible support via UART with hardware synchronization Flexible , PORT UART PORT SPI PORT LIN WU STI LIN/BSD GPIO_0 GPIO_1 GPIO_2 GPIO_3 GPIO_4 GPIO , 32.768kHz crystal in user code 31 These numbers are not production tested, but are supported by LIN , -bit ADCs Programmable ADC throughput from 1 Hz to 8 kHz On-chip 5ppm/°C voltage reference Current channel , supports code download and debug Integrated Precision Battery Sensor For Automotive ADuC7030/ADuC7033
Analog Devices
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ADUC7033 ARM7TDMI Technical Reference Manual RBU AF psm 125 cd4580 adi please confirm the manufacturing date from the serial number recorded on the product C7030/AD C7033 C7030 ADUC7033BCPZ-8L ADUC7033BCPZ8L-RL

ADuC7035

Abstract: monoflop via JTAG and LIN On-chip peripherals LIN 2.0-compatible (slave) support via UART with hardware , TIMER GPIO PORT UART PORT SPI PORT LIN STI TEMPERATURE SENSOR VREF GND_SW PRECISION REFERENCE , ppm/°C voltage reference Current channel Fully differential, buffered input Programmable gain from 1 , oscillator External (32.768 kHz) watch crystal JTAG port supports code download and debug Memory 96 kB Flash , and temperature range 48-lead, 7 mm × 7 mm LFCSP Fully specified for -40°C to +115°C operation
Analog Devices
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ADuC7035 monoflop DIVIDE-BY-24 1024 VARISTOR VOL30 D07474-0-10/08

CIRCUIT SCHEMATIC CAR ECU

Abstract: SF126 download via JTAG and LIN On-chip peripherals LIN 2.0 (slave) compatible support via UART with hardware , PLL 3 × TIMERS WDT W/U TIMER GPIO PORT UART PORT SPI PORT LIN ARM7TDMI MCU 16-BIT - , user code 31 These numbers are not production tested, but are supported by LIN Compliance testing , for -40°C to +115°C operation High precision ADCs Dual channel, simultaneous sampling, 16-bit ADCs Programmable ADC throughput from 1 Hz to 8 kHz On-chip 5ppm/°C voltage reference Current
Analog Devices
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SF126 DDI0029G, ARM7TDMI Technical Reference Manual DDI0029G LSB16 MS-026-BBC ST-48 PR05994-0-10/06

EPS ECU block diagram

Abstract: On-chip peripherals LIN 2.0-compatible (slave) support via UART with hardware synchronization Flexible , UART PORT SPI PORT LIN STI TEMPERATURE SENSOR VREF PRECISION REFERENCE LIN/BSD GPIO , code. 28 These numbers are not production tested, but are supported by LIN compliance testing. 29 BSD , Location 0x14); otherwise, user code does not execute and LIN download mode is entered. SPSR_FIQ FIQ , /°C voltage reference Current channel Fully differential, buffered input Programmable gain from 1 to
Analog Devices
Original
EPS ECU block diagram C7034BCPZ C7034BCPZ-RL1 C7034QSPZ1 D07116-0-4/08

D2BSD

Abstract: uart specification JTAG and LIN On-chip peripherals SAEJ2602/LIN 2.0-compatible (slave) support via UART with hardware , XTAL2 WU GPIO PORT UART PORT SPI PORT LIN 3× TIMERS WDT WU TIMER PRECISION REFERENCE , Package and temperature range 48-lead, 7 mm × 7 mm LFCSP Fully specified for -40°C to +115°C operation , from 1 Hz to 8 kHz On-chip ±5 ppm/°C voltage reference Current channel Fully differential, buffered , oscillator On-chip low power oscillator External (32.768 kHz) watch crystal JTAG port supports code
Analog Devices
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uart specification D07474-0-5/10
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