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"Be Used and Setting in Clock Synchronous Serial

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: Register) Setting - Exclusive Clock Synchronous Serial I/O and Interrupt control Register The way to , HN58X25xxx Series serial EEPROM can be controlled through the exclusive clock synchronous serial I/O and , Software Version : M16C family : Exclusive clock synchronous serial I/O is used : Ver.1.01 The , implemented by using the exclusive clock synchronous serial I/O in the M16C. The sample programs execute the , the MCU and serial EEPROM for the maximum clock frequency that can be used. 1.3 Control of S ... Renesas Technology
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23 pages,
123.02 Kb

SM46 equivalent SM45 SM44 SM42 SM41 SM40 SM-46 M16C29 TEXT
datasheet frame
Abstract: 17.2 Registers to Be Used and Setting in Clock Synchronous Serial I/O Mode) in the M32C/87 M32C/87 Group , Registers to Be Used and Setting in Clock Synchronous Serial I/O Mode) in the M16C/62P M16C/62P Group Hardware , and Setting in Clock Synchronous Serial I/O Mode) in the R8C/25 R8C/25 Group Hardware Manual Rev. 2.00 is , Device Control Register) Setting - Clock Synchronous Serial I/O and Interrupt control Register Set up , setting based on the register descriptions of (Table 15.2 Registers to Be Used and Setting in Clock ... Renesas Technology
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40 pages,
201.6 Kb

R8C25 TEXT
datasheet frame
Abstract: (Table 17.2 Registers to Be Used and Setting in Clock Synchronous Serial I/O Mode) in the M16C/62P M16C/62P Group , (Table 15.2 Registers to Be Used and Setting in Clock Synchronous Serial I/O Mode) in the M16C/30P M16C/30P Group , Be Used and Setting in Clock Synchronous Serial I/O Mode) in the M16C/29 M16C/29 Group Hardware Manual Rev , based on the register descriptions of (Table 15.2 Registers to Be Used and Setting in Clock Synchronous , Register) Setting - Clock Synchronous Serial I/O and Interrupt control Register Set up the clock ... Renesas Technology
Original
datasheet

43 pages,
208.58 Kb

M25P32 M25P M25P application note TEXT
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Abstract: SH7080 SH7080 Group SCIF serial data reception function in the clock synchronous mode 5.3 Setting the , Group SCIF serial data reception function in the clock synchronous mode Website and Support Renesas , APPLICATION NOTE SH7080 SH7080 Group SCIF serial data reception function in the clock synchronous mode , serial data in the clock synchronous mode. In the SCIF clock synchronous mode, data is transmitted in , Group SCIF serial data reception function in the clock synchronous mode · Provision of one 16 ... Renesas Technology
Original
datasheet

19 pages,
117.83 Kb

SH7085 R5F7085 R5F7 b010 SH7080 TEXT
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Abstract: transmission and reception enables efficient, high-speed serial communications. · In the clock synchronous , APPLICATION NOTE SH7080 SH7080 Group SCIF serial data transmission function in the clock synchronous , 1 SCIF Serial Data Transmission in the Clock Synchronous Mode 2. Applicable Conditions · , SH7080 SH7080 Group SCIF serial data transmission function in the clock synchronous mode 3. Description of , (Serial Communications Interface with FIFO) to transmit serial data in the clock synchronous mode. In the ... Renesas Technology
Original
datasheet

18 pages,
136.95 Kb

SH7085 R5F7085 SH7080 TEXT
datasheet frame
Abstract: Use Clock synchronous SCI Port (for control of the S# pin of serial EEPROM) Number of Used , 0 is used as the resource of the clock synchronous SCI. No setting needs to be modified when the , APPLICATION NOTE Serial EEPROM of HN58X25xxx Series Control Using Clock Synchronous SCI of , HN58X25xxx Series serial EEPROM manufactured by Renesas Technology Corp., using the clock synchronous serial , Corp. The SuperH family incorporates a clock synchronous SCI. The HN58X25xxx Series serial EEPROM can ... Renesas Technology
Original
datasheet

23 pages,
168.14 Kb

SH7206 HN58X25xxx Renesas SH-2 TEXT
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Abstract: the RAM area to be used. Initializes the SSU in clocked synchronous communication mode and cancels , serial data input pin and serial data output pin is used. 0: Clocked synchronous communication mode · , described below. The setting values in the tables below are used for this task and are different from the , . The setting values in the tables below are used in this task and are different from the initial , the RAM area to be used. Initializes the SSU in clocked synchronous communication mode and cancels ... Renesas Technology
Original
datasheet

31 pages,
257.53 Kb

sstdr H8/38602R TEXT
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Abstract: shown in Figure 1. (1) Clock synchronous serial I/O mode of UART0 is used. The transfer clock is an , */ /* Transmission buffer */ /* Initial setting of SFR registers */ /* Clock synchronous serial I/O sub routine , flag = start */ /* Clock synchronous serial I/O setting */ u0mr = 0x01; /* Set clock synchronous , APPLICATION NOTE R8C/10 R8C/10, R8C/11 R8C/11, R8C/12 R8C/12, R8C/13 R8C/13 Group Serial I/O Operation (Clock Synchronous , bytes successively by using clock synchronous serial I/O mode. 2. Introduction The explanation ... Renesas Technology
Original
datasheet

11 pages,
61.15 Kb

CM17 R8C/10 R8C/11 R8C/12 R8C/13 TEXT
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Abstract: Synchronous Mode Introduction Clock synchronous transfer is used to transmit and receive 128 bytes of data , Synchronous Mode 3.2 Description of SCI_0 In this sample task, SCI_0 is used for clock synchronous , Reception in Clock Synchronous Mode · Serial mode control register_0 (SMR_0) Number of bits: 8 Address , requests. R/W Clock Enable 1 and 0 Selects the clock source. When in clock synchronous mode; 0X , Family Using DMAC to Drive Continuous SCI Reception in Clock Synchronous Mode · Serial status ... Renesas Technology
Original
datasheet

27 pages,
144.34 Kb

h8sx TEXT
datasheet frame
Abstract: connection for transmission and reception by the SCI in clock synchronous mode. · SCI2 is used. · The , clock synchronous mode. In clock synchronous mode, the SCI transmits and receive serial data in , and Reception of Serial Data by the SCI in Clock Synchronous Mode 2.4 Procedure for Processing , of 16 SH7280 SH7280 Group Transmission and Reception of Serial Data by the SCI in Clock Synchronous , SH7280 SH7280 Group Transmission and Reception of Serial Data by the SCI in Clock Synchronous Mode Website ... Renesas Technology
Original
datasheet

16 pages,
132.4 Kb

SH7280 TEXT
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Archived Files

Abstract Saved from Date Saved File Size Type Download
input and output data on RXD. The data is always one byte in length. Whenever a write to the serial This is accomplished setting bit 5 in IOC1 (16H). In order to set the serial port to operate in mode 0, the serial port control register (sp_con11H) needs to be initialized. Bits 0 and 1 set interrupt bit in INT_MASK (09H) is inclusive OR of RI and TI. Hence, either RI or TI can cause a SERIAL used to clock the parallel-in and serial-out shift register (74LS165 74LS165). This (74LS165 74LS165) register has two
/datasheets/files/intel/design/mcs96/applnots/2159.htm
Intel 31/01/1997 16.23 Kb HTM 2159.htm
cation standards. The SPI uses one or two lines for serial data and a synchronous clock signal. 1.1.9 using the CPU Pres- caler and CCU Clock Divider (PLL not used) or by using the CK_AF external clock Clock Generator, with Frequency Multiplication and low frequency, low cost external crystal n Instruction Cycle time: 250ns - (@ 24 MHz internal clock frequency) n 8 external and 1 Non-Maskable Interrupts n DMA Controller and Programmable Interrupt Handler n Single Master Serial Peripheral
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5464-v4.htm
STMicroelectronics 26/01/2001 408.05 Kb HTM 5464-v4.htm
, respectively. If you used the symbols MD0 and MD1, consult the device pinout tables in The Programmable Logic the number of clock pulses applied and the frequency at which the clock cycles occur. For synchronous command from the Hardware Debugger menus and select the Use XChecker Clock setting from CLKO CLKO Clock Source command and select the Use CLKI setting from CLKO Clock Settings trigger and the RD and RT pins as explained in the previous "Connecting for Synchronous Debugging"
/datasheets/files/xilinx/docsan/hbg/hbg4_6.htm
Xilinx 12/11/1998 20.5 Kb HTM hbg4_6.htm
lose any data. Serial Port Basics Serial communication comes in two basic flavors: synchronous and asynchronous. Synchronous communication uses a clock pulse to synchronize the 8 bits of In program listings 1 and 2, IOC1 is loaded with 20H, which sets bit 5. This enables the serial TXD starts a transmission in modes 1,2, and 3. SBUF(RX) contains data received from the serial port which communication lacks a synchronizing clock between the receiver and transmitter, we must have a fixed
/datasheets/files/intel/design/mcs96/technote/2673-v1.htm
Intel 31/10/1997 14.39 Kb HTM 2673-v1.htm
lose any data. Serial Port Basics Serial communication comes in two basic flavors: synchronous and asynchronous. Synchronous communication uses a clock pulse to synchronize the 8 bits of In program listings 1 and 2, IOC1 is loaded with 20H, which sets bit 5. This enables the serial TXD starts a transmission in modes 1,2, and 3. SBUF(RX) contains data received from the serial port which communication lacks a synchronizing clock between the receiver and transmitter, we must have a fixed
/datasheets/files/intel/design/mcs96/technote/2673.htm
Intel 01/02/1999 13.99 Kb HTM 2673.htm
lose any data. Serial Port Basics Serial communication comes in two basic flavors: synchronous and asynchronous. Synchronous communication uses a clock pulse to synchronize the 8 bits of data BAUD_RATE register. The BAUD_RATE SFR determines the baud rate and clock source for the serial In program listings 1 and 2, IOC1 is loaded with 20H, which sets bit 5. This enables the serial TXD transmission in modes 1,2, and 3. SBUF(RX) contains data received from the serial port which is double
/datasheets/files/intel/design/mcs96/technote/2673-v2.htm
Intel 03/08/1997 13.12 Kb HTM 2673-v2.htm
lose any data. Serial Port Basics Serial communication comes in two basic flavors: synchronous and asynchronous. Synchronous communication uses a clock pulse to synchronize the 8 bits of In program listings 1 and 2, IOC1 is loaded with 20H, which sets bit 5. This enables the serial TXD starts a transmission in modes 1,2, and 3. SBUF(RX) contains data received from the serial port which communication lacks a synchronizing clock between the receiver and transmitter, we must have a fixed
/datasheets/files/intel/design/mcs96/technote/2673-v5.htm
Intel 30/04/1998 14 Kb HTM 2673-v5.htm
lose any data. Serial Port Basics Serial communication comes in two basic flavors: synchronous and asynchronous. Synchronous communication uses a clock pulse to synchronize the 8 bits of In program listings 1 and 2, IOC1 is loaded with 20H, which sets bit 5. This enables the serial TXD starts a transmission in modes 1,2, and 3. SBUF(RX) contains data received from the serial port which communication lacks a synchronizing clock between the receiver and transmitter, we must have a fixed
/datasheets/files/intel/design/mcs96/technote/2673-v6.htm
Intel 01/08/1998 14.01 Kb HTM 2673-v6.htm
lose any data. Serial Port Basics Serial communication comes in two basic flavors: synchronous and asynchronous. Synchronous communication uses a clock pulse to synchronize the 8 bits of In program listings 1 and 2, IOC1 is loaded with 20H, which sets bit 5. This enables the serial TXD starts a transmission in modes 1,2, and 3. SBUF(RX) contains data received from the serial port which communication lacks a synchronizing clock between the receiver and transmitter, we must have a fixed
/datasheets/files/intel/design/mcs96/technote/2673-v7.htm
Intel 01/11/1998 14.01 Kb HTM 2673-v7.htm