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816-AG10D (3-1437537-7) TE Connectivity (3-1437537-7) 816-AG10D=SOCKET ASSY
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816-AG10D-ES (2-1437539-6) TE Connectivity (2-1437539-6) 816-AG10D-ES=SOCKET ASSY
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816-AG11D-ESL-LF (2-1571552-4) TE Connectivity (2-1571552-4) 816-AG11D-ESL-LF=800 DIP,GF/SN

CoolRISC 816 datasheet (1)

Part Manufacturer Description Type PDF
CoolRISC 816 Xemics CoolRISC 816 8-bit Microprocessor Core, Hardware and Software Reference Manual Original PDF

CoolRISC 816 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2001 - CoolRISC 816

Abstract: CoolRISC 816 TN8000.04 core i3 addressing modes pipeline in core i3 CoolRISC XE88LC01 0B00100001 XE88LC05 XE88LC03 XE8000
Text: on the CoolRISC816 core, including all the XE8000 products. 2 2.1 CoolRISC 816 basics Introduction The XE8000 family is built around the CoolRISC 816 processor core. This is a Harvard type RISC , > CoolRISCTM Core 816 Figure 2.1: CoolRISC 816 core 2.1.1 Pipeline The CoolRISC architecture is based , Programmer's Model CoolRISC ® 816 Architecture Figure 2.1 shows the CoolRISC ® Core 816 architecture which , Instruction Set Table 2.2 presents the instruction set of the CoolRISC ® 816 . The CoolRISC ® provides a RISC


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PDF TN8000 Coolrisc816 XE8000 T0109-44 CoolRISC 816 CoolRISC 816 TN8000.04 core i3 addressing modes pipeline in core i3 CoolRISC XE88LC01 0B00100001 XE88LC05 XE88LC03
2002 - R0105-078

Abstract: CoolRISC 816 core i3 addressing modes CR816 CoolRISC CR816-DL 8 bit Array multiplier code in VERILOG
Text: _ CoolRISC 816 8-bit Microprocessor Core _ Hardware and Software , : info@xemics.com · web: www.xemics.com ii CoolRISC 816 Reference Manual Document History Date Version , instruction modified. Document Nr: R0105-078 2001 Xemics, v4.5 CoolRISC 816 Reference Manual iii , CoolRISC 816 Reference Manual CPL2C - Two's Complementation with Carry . . . . . . . . . . . . . . . . . , .5 CoolRISC 816 Reference Manual 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 v Interrupt Subroutine Calls . . .


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PDF CoolRISC816 DB0105-78 R0105-078 CoolRISC 816 core i3 addressing modes CR816 CoolRISC CR816-DL 8 bit Array multiplier code in VERILOG
CoolRISC 816

Abstract: 8x8 bits HIGH SPEED ANALOG MULTIPLIER 4x2 lcd N9K1444 H0048-H004F XX-XE88LC03 XX-XE88LC01 XE88LC03 XE8000 TQFP32
Text: -40 - 85 °C -40 - 85 °C -40 - 85 °C -40 - 125 °C -40 - 125 °C CoolRISC 816 , CoolRISC 816 , CoolRISC 816 , CoolRISC 816 , 22 bits 22 bits 22 bits 22 bits instructions instructions instructions , 8 input/output yes yes yes yes CoolRISC 816 , 22 bits CPU instructions 8 bits data HW , to Xtal/ Peripheral clock for test and MTP programing Connection to Xtal/ CoolRISC clock for test , purpose microcontroller. Its main points are the very efficient CoolRISC core, the low voltage function


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PDF XX/XE88LC03 XE88LC03 XE88LC03 300uA XX/D010-060 XX-XE88LC01 CoolRISC 816 8x8 bits HIGH SPEED ANALOG MULTIPLIER 4x2 lcd N9K1444 H0048-H004F XX-XE88LC03 XX-XE88LC01 XE8000 TQFP32
32768 quartz

Abstract: XE8301 JVC receiver CoolRISC 816 d flip flop using gdi techniques XX-XE88LC01-03-05 XE88LC03 XE88LC01 TQFP44 TQFP32
Text: CoolRISC © Core Features 28 CoolRISC © 816 Architecture Instruction Set Register bank Program Memory , for high voltage operation. Figure 4.1: CoolRISC 816 core Figure 4.2: CoolRISC Pipeline Figure 4.3 , core main characteristics Table 4.2: CoolRISC 816 Instruction Set Table 4.3: CoolRISC 816 addressing modes Table 4.4: CoolRISC 816 conditional jump (Jcc) conditions Table 4.5: CoolRISC 816 instruction construction Table 4.6: CoolRISC 816 internal registers Table 4.7: CoolRISC 816 registers organization Table


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PDF XX-XE88LC01/03/05 XX-XE88LC01/03/05, xxDB004-74 32768 quartz XE8301 JVC receiver CoolRISC 816 d flip flop using gdi techniques XX-XE88LC01-03-05 XE88LC03 XE88LC01 TQFP44 TQFP32
2000 - 32768 quartz

Abstract: CoolRISC 816 d flip flop using gdi techniques XX-XE88LC01-03-05 XE88LC05 XE88LC03 XE88LC01 TQFP64 TQFP44 programme counter bit length
Text: CoolRISC © Core Features CoolRISC © 816 Architecture Instruction Set Register bank Program Memory , voltage operation. Figure 4.1: CoolRISC 816 core Figure 4.2: CoolRISC Pipeline Figure 4.3: Pipeline , core main characteristics Table 4.2: CoolRISC 816 Instruction Set Table 4.3: CoolRISC 816 addressing modes Table 4.4: CoolRISC 816 conditional jump (Jcc) conditions Table 4.5: CoolRISC 816 instruction construction Table 4.7: CoolRISC 816 registers organization Table 4.8: CoolRISC 816 interrupts Table 4.6


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PDF XX-XE88LC01/03/05 XX-XE88LC01/03/05, XX-XE88LC01-03-05 XE8000 32768 quartz CoolRISC 816 d flip flop using gdi techniques XX-XE88LC01-03-05 XE88LC05 XE88LC03 XE88LC01 TQFP64 TQFP44 programme counter bit length
4x2 LCD

Abstract: CoolRISC 816 H0050 XX-XE88LC01 XE88LC01MI XE88LC01 XE8000 TQFP44 H0007 gd2v
Text: -40 - 85 °C -40 - 85 °C -40 - 85 °C -40 - 125 °C -40 - 125 °C CoolRISC 816 , CoolRISC 816 , CoolRISC 816 , CoolRISC 816 , 22 bits 22 bits 22 bits 22 bits instructions instructions instructions , 8 input/output yes yes yes yes CoolRISC 816 , 22 bits CPU instructions 8 bits data HW , voltage multiplier capacitor Connection to Xtal/ CoolRISC clock for test and MTP programing Connection , microcontroller. Its main points are the very efficient CoolRISC core, the low voltage function and the real time


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PDF XX-XE88LC01 XE88LC01 XE88LC01 300uA XX/D010-060 4x2 LCD CoolRISC 816 H0050 XX-XE88LC01 XE88LC01MI XE8000 TQFP44 H0007 gd2v
H003C-H003F

Abstract: 4x2 lcd CoolRISC 816 PB119 xe88lc05 adc XX-XE88LC05 XX-XE88LC01 XE88LC05 TQFP64 H0007
Text: -40 - 85 °C -40 - 125 °C -40 - 125 °C CoolRISC 816 , CoolRISC 816 , CoolRISC 816 , CoolRISC 816 , 22 , yes yes yes yes CoolRISC 816 , 22 bits CPU instructions 8 bits data HW multiplier 8k , MTP programming Connection to Xtal/ CoolRISC clock for test and MTP programming Do not connect, or , main points are the very efficient CoolRISC core, the low voltage function and the real time clock , the very efficient CoolRISC core, the low voltage function and the real time clock. Its main


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PDF XX-XE88LC05 XE88LC05 XE88LC05 XX/D010-060 H003C-H003F 4x2 lcd CoolRISC 816 PB119 xe88lc05 adc XX-XE88LC05 XX-XE88LC01 TQFP64 H0007
2006 - CoolRISC 816

Abstract: CR88 Cpl2c CoolRISC
Text: CoolRISC TM Quick reference for the CoolRISC 816 Instruction set Instruction Modification Jump addr(16bits) or ip Jcc addr(16bits) or ip Call addr(16bits) or ip Calls addr(16bits) or ip Ret Rets Reti Push Pop Move reg,#data(8bits) Move reg1,reg2 Move reg,eaddr Move eaddr,reg Move addr(8bits),#data(8bits) Cmvd reg1,reg2 Cmvs reg,eaddr -,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,- , Identifies the CoolRISC processor family for which the content of the file was written. "n" value is 816


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PDF 16bits) CoolRISC 816 CR88 Cpl2c CoolRISC
2002 - CoolRISC 816

Abstract: CH-2007 CR88
Text: CoolRISC TM Quick reference for the CoolRISC 816 Instruction set Instruction Modification Jump addr(16bits) or ip Jcc addr(16bits) or ip Call addr(16bits) or ip Calls addr(16bits) or ip Ret Rets Reti Push Pop Move reg,#data(8bits) Move reg1,reg2 Move reg,eaddr Move eaddr,reg , .double flonums .eject .else .endif .equ symbol, expression .file string Identifies the CoolRISC processor family for which the content of the file was written. "n" value is 816 for the CR816 processor


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PDF 16bits) CH-2007 DB0203-2 CoolRISC 816 CR88
2002 - CoolRISC 816

Abstract: ram circuit XE88LC01 XE8000 TQFP32 SO20 LQFP80 LQFP64 LQFP44 Battery Capacity Monitoring
Text: complete instruction set for the CoolRISC microcontroller family. C Compiler The ANSI C compliant compiler integrates extended features to address the CoolRISC 816 core. It enables in-lining of assembler , can be used as additional I/O CPU: The XE8000 series uses the CoolRISC ® processor core that has a , . Instructions are all on one single page (no need to swap pages). CoolRISC ® Instruction set: All instructions , deactivated. The CoolRISC core and its peripheral make extensive use of gated-clock technology, delivering


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PDF XE8000 8/22-bit PB0204-124 CoolRISC 816 ram circuit XE88LC01 TQFP32 SO20 LQFP80 LQFP64 LQFP44 Battery Capacity Monitoring
2006 - CoolRISC 816

Abstract: VREG16 XE3005 XE8000 XE8806A XE8807A tn8000
Text: ://www.semtech.com XE8806A / XE8807A Datasheet http://www.semtech.com ® CoolRISC 816 Databook http , Yes Figure 8 : Data channel handling 3.5.4 Register use Some registers of the CoolRISC are


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PDF TN8000 XE3005 XE8807A CoolRISC 816 VREG16 XE8000 XE8806A XE8807A
2006 - CoolRISC 816

Abstract: adc 0831 interfacing microcontroller VREG16 XE3005 XE8000 XE8806A XE8807A COOLRISC816
Text: ://www.semtech.com XE8806A / XE8807A Datasheet http://www.semtech.com CoolRISC ® 816 Databook http , Yes Figure 8 : Data channel handling 3.5.4 Register use Some registers of the CoolRISC are


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PDF TN8000 XE3005 XE8807A CoolRISC 816 adc 0831 interfacing microcontroller VREG16 XE8000 XE8806A XE8807A COOLRISC816
2006 - CoolRISC 816

Abstract: No abstract text available
Text: .11 3.2.1 CoolRISC 816 CPU , SPI_DATA_IN TX_DATA RX_EN SYNC_DETECT TX_EN SPI_DATA_OUT SPI_CLK_OUT SPI_EN_BAR CoolRISC 816 RISC CPU , Network A high-level block diagram of the SX1441 is shown in Figure 3. The CoolRISC 816 8-bit RISC , CoolRISC 816 CPU The CPU of the SX1441 is a CoolRISC816, an 8-bit low power RISC core. The instruction set , complete CPU hardware and software description is given in the document " CoolRISC 816 , 8-bit Microprocesor


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PDF SX1441 SX1441 CoolRISC 816
2006 - BT 816 transistor replacement

Abstract: schematic diagram bluetooth headset
Text: .11 3.2.1 CoolRISC 816 CPU , SYNC_DETECT TX_EN SPI_DATA_OUT SPI_CLK_OUT SPI_EN_BAR CoolRISC 816 RISC CPU Data Memory BT HCI UART , high-level block diagram of the SX1441 is shown in Figure 3. The CoolRISC 816 8-bit RISC processor is , SYSTEM Data Sheet Bluetooth® 1.2 SoC Bluetooth QD ID B012209 3.2.1 CoolRISC 816 CPU The CPU of , and software description is given in the document CoolRISC 816 , 8-bit Microprocesor Core, Hardware and


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PDF SX1441 B012209 SX1441 BT 816 transistor replacement schematic diagram bluetooth headset
2006 - BT 816 transistor

Abstract: 0x2004 BT 816 transistor replacement
Text: .11 3.2.1 CoolRISC 816 CPU , SPI_EN_BAR CoolRISC 816 RISC CPU Data Memory BT HCI UART uart bus pcm bus Bluetooth 1.2 , the SX1441 is shown in Figure 3. The CoolRISC 816 8-bit RISC processor is optimized for both , Bluetooth® 1.2 SoC Bluetooth QD ID B012209 3.2.1 CoolRISC 816 CPU The CPU of the SX1441 is a , document CoolRISC 816 , 8-bit Microprocesor Core, Hardware and Software Reference Manual , version 4.5 which


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PDF SX1441 B012209 SX1441 BT 816 transistor 0x2004 BT 816 transistor replacement
2006 - BT 816 transistor

Abstract: BT 816 transistor replacement res-pre variable resistor
Text: .11 3.2.1 CoolRISC 816 CPU , SPI_DATA_OUT SPI_CLK_OUT SPI_EN_BAR CoolRISC 816 RISC CPU Data Memory BT HCI UART uart bus pcm bus , in Figure 3. The CoolRISC 816 8-bit RISC processor is optimized for both computation power and energy , PROCESSOR SYSTEM 3.2.1 CoolRISC 816 CPU The CPU of the SX1441 is a CoolRISC816, an 8-bit low power RISC , compiler. The complete CPU hardware and software description is given in the document " CoolRISC 816 , 8


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PDF SX1441 SX1441 BT 816 transistor BT 816 transistor replacement res-pre variable resistor
2006 - BT 816 transistor

Abstract: schematic diagram bluetooth headset block diagram bluetooth headset CoolRISC 816 CX72302 CX72303 SX1441 XE1401 XE1413
Text: .11 3.2.1 CoolRISC 816 CPU , SPI_EN_BAR CoolRISC 816 RISC CPU Data Memory Event Controller NRESET BT HCI UART Codec , diagram of the SX1441 is shown in Figure 3. The CoolRISC 816 8-bit RISC processor is optimized for both , Bluetooth® 1.2 SoC Personal Area Network 3.2 HOST PROCESSOR SYSTEM 3.2.1 CoolRISC 816 CPU The CPU , and software description is given in the document " CoolRISC 816 , 8-bit Microprocesor Core, Hardware


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PDF SX1441 SX1441 BT 816 transistor schematic diagram bluetooth headset block diagram bluetooth headset CoolRISC 816 CX72302 CX72303 XE1401 XE1413
2005 - BT 816 transistor

Abstract: 31314 res-pre variable resistor CVSD BT 816 transistor replacement
Text: . 11 3.2.1 CoolRISC 816 CPU , SPI_DATA_IN CoolRISC 816 RISC CPU Data Memory BT HCI UART uart bus pcm bus Bluetooth Sequencer , 10 XE1431 Bluetooth® SoC 3.2 HOST PROCESSOR SYSTEM 3.2.1 CoolRISC 816 CPU The CPU of , and software description is given in the document " CoolRISC 816 , 8-bit Microprocesor Core, Hardware , is shown in Figure 3. The CoolRISCTM 816 8-bit RISC processor is optimized for both computation power


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PDF XE1431 XE1431 BT 816 transistor 31314 res-pre variable resistor CVSD BT 816 transistor replacement
2006 - CoolRISC 816

Abstract: CX72303 XE1431 CX72302 XE1401 XE1413 40* logical ex or 0x040a
Text: . 11 3.2.1 CoolRISC 816 CPU , Program Memory (ROM / RAM) RX_DATA SPI_DATA_IN CoolRISC 816 RISC CPU Data Memory Event , 3.2 HOST PROCESSOR SYSTEM 3.2.1 CoolRISC 816 CPU The CPU of the XE1431 is a CoolRISC816, an 8 , the document " CoolRISC 816 , 8-bit Microprocesor Core, Hardware and Software Reference Manual , XE1431 Bluetooth® SoC A high-level block diagram of the XE1431 is shown in Figure 3. The CoolRISCTM 816


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PDF XE1431 XE1431 CoolRISC 816 CX72303 CX72302 XE1401 XE1413 40* logical ex or 0x040a
2006 - Not Available

Abstract: No abstract text available
Text: . 11 3.2.1 CoolRISC 816 CPU , SPI_DATA_IN CoolRISC 816 RISC CPU Data Memory BT HCI UART uart bus pcm bus Bluetooth Sequencer , 3.2 HOST PROCESSOR SYSTEM 3.2.1 CoolRISC 816 CPU The CPU of the XE1431 is a CoolRISC816, an 8 , document " CoolRISC 816 , 8-bit Microprocesor Core, Hardware and Software Reference Manual", version 4.5 , . The CoolRISCTM 816 8-bit RISC processor is optimized for both computation power and energy consumption


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PDF XE1431 XE1431
verilog code voltage regulator vhdl

Abstract: CoolRISC 816 abstract for UART simulation using VHDL project of 16 bit microprocessor using vhdl vhdl code for march c algorithm Jaquet speed block diagram UART using VHDL "Heat meter" vhdl code for digital to analog converter project of 8 bit microprocessor using vhdl
Text: kernel FLI Co-sim. memory FLI Co-sim. CoolRISC µP Traces Lin k CoolRISC 816 Instr.-set simul , simulator for the very low power 8-bit CoolRISC microprocessor (µP) core [1]. The co-simulation tool , described in VHDL at behavioral and/or RTL levels. The software run by the CoolRISC uP can be described and , functional model of the CoolRISC µP to the VHDL/Verilog simulated ASIC hardware. All signals of the µP are , CoolRISC model. The most important feature of this tool is that it allows the debugging and optimization


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PDF DATE-2000 verilog code voltage regulator vhdl CoolRISC 816 abstract for UART simulation using VHDL project of 16 bit microprocessor using vhdl vhdl code for march c algorithm Jaquet speed block diagram UART using VHDL "Heat meter" vhdl code for digital to analog converter project of 8 bit microprocessor using vhdl
2005 - Wireless notice board using PC

Abstract: rs232 wireless XE88LC06A XM1203 XE1200 hyperterminal* rs232 XE1203 XE8000 XE8000MP TN8000
Text: familiar with Windows, has at least some familiarity with the CoolRISC 816 family and the C programming


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PDF ANSX1200 RS232 RS232 Wireless notice board using PC rs232 wireless XE88LC06A XM1203 XE1200 hyperterminal* rs232 XE1203 XE8000 XE8000MP TN8000
2005 - hyperterminal

Abstract: ANSX1200 wireless rs232 transmit XM1203 rs232 wireless CoolRISC CoolRISC 816 rs232 protocols hyperterminal* rs232 XE1203DRIVER
Text: familiar with Windows, has at least some familiarity with the CoolRISC 816 family and the C programming


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PDF ANSX1200 RS232 RS232 hyperterminal wireless rs232 transmit XM1203 rs232 wireless CoolRISC CoolRISC 816 rs232 protocols hyperterminal* rs232 XE1203DRIVER
2005 - c816

Abstract: CC-81 tn8000 CoolRISC 816 TN8000.04 transistor c816 XE8000 CoolRISC 816 xe88cl07a XE88LC01 XE8000MP
Text: Loop CoolRISC 816 instruction codes and examples interleaved interrupts handling Driving LCD


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PDF TN8000 c816 CC-81 CoolRISC 816 TN8000.04 transistor c816 XE8000 CoolRISC 816 xe88cl07a XE88LC01 XE8000MP
2006 - EM6812

Abstract: CORE i3 ARCHITECTURE intel CORE i3 instruction set EM4275 00000001FF intel CORE i3 instruction format instruction set architecture intel i3 EM68 c816-srec2rom register organization of intel i3
Text: software questions for EM 8-bit Microcontrollers Product Family: CoolRISC core architecture Part Number: EM6812, EM9550, EM9551, EM9553, EM4275 Keywords: CoolRISC , constant, initialized global , www.emmicroelectronic.com AppNote 60 1. How to implement constants table CoolRISC architecture introduction CoolRISC , separate data memory. For some existing EM Microelectronic CoolRISC derivates there are no data ROM , the CoolRISC defined for the link (.data, .page0_data, .rodata). These sections are defined as null


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PDF EM6812, EM9550, EM9551, EM9553, EM4275 EM6812 CORE i3 ARCHITECTURE intel CORE i3 instruction set EM4275 00000001FF intel CORE i3 instruction format instruction set architecture intel i3 EM68 c816-srec2rom register organization of intel i3
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