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    Part ECAD Model Manufacturer Description Download Buy
    54LS183J Rochester Electronics LLC 54LS183 - Full Adder, Dual Carry-Save Visit Rochester Electronics LLC Buy
    54LS183/BCA Rochester Electronics LLC 54LS183 - Full Adder, Dual Carry-Save - Dual marked (5962-9054101CA) Visit Rochester Electronics LLC Buy
    54182J/B Rochester Electronics LLC 54182 - Look Ahead Carry Generators Visit Rochester Electronics LLC Buy
    25S558DM/B Rochester Electronics LLC AM25S558 - 8-Bit Combinational Multiplier Visit Rochester Electronics LLC Buy
    HI4-0201/B Rochester Electronics LLC HI4-0201 - Differential Multiplier Visit Rochester Electronics LLC Buy

    CARRY SAVE MULTIPLIER Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    AN-3006

    Abstract: 017d 000D 001C MAXQ10 MAXQ20 MAXQ2000 APP300
    Text: Maxim > App Notes > MICROCONTROLLERS Keywords: MAXQ, MAXQ20, MAXQ10, multiplier, hardware multiplier , maxq microcontroller, micro Jan 23, 2004 APPLICATION NOTE 3006 Using MAXQ's Multiplier Module Abstract: A MAXQ-based microcontroller can be equipped with a 16x16 hardware multiplier peripheral module. This


    Original     		MAXQ20, MAXQ10, 16x16 com/an3006 MAXQ2000: AN3006, APP3006, Appnote3006, AN-3006 017d 000D 001C MAXQ10 MAXQ20 MAXQ2000 APP300 PDF

    ir31

    Abstract: 68HC05 AN1219 IR21 IR30 M6805 M68HC08 IR33 motorola application note 6805 motorola
    Text: Order this document by AN1219/D Rev. 1.0 Motorola Semiconductor Application Note AN1219 M68HC08 Integer Math Routines By Mark Johnson CSIC Applications Engineering Austin, Texas Introduction This application note discusses six integer math subroutines 1 that take


    Original     		AN1219/D AN1219 M68HC08 68HC08 68HC05 68HC05 ir31 AN1219 IR21 IR30 M6805 IR33 motorola application note 6805 motorola PDF

    68HC05

    Abstract: AN1219 M6805 M68HC08
    Text: Order this document by AN1219/D MOTOROLA SEMICONDUCTOR APPLICATION NOTE AN1219 M68HC08 Integer Math Routines by Mark Johnson CSIC Applications INTRODUCTION The 68HC08 microcontroller unit MCU is a fully upward-compatible performance extension of the 68HC05 Family of MCUs. Users familiar with the 68HC05 should find little difficulty implementing the


    Original     		AN1219/D AN1219 M68HC08 68HC08 68HC05 AN1219 M6805 PDF

    eprom 2416

    Abstract: motorola 68hc05 IR31 68HC05 AN1219 IR21 IR30 M6805 M68HC08 motorola multiplier
    Text: Freescale Semiconductor, Inc. Order this document by AN1219/D Rev. 1.0 Motorola Semiconductor Application Note AN1219 Freescale Semiconductor, Inc. M68HC08 Integer Math Routines By Mark Johnson CSIC Applications Engineering Austin, Texas Introduction This application note discusses six integer math subroutines 1 that take


    Original     		AN1219/D AN1219 M68HC08 68HC08 68HC05 68HC05 eprom 2416 motorola 68hc05 IR31 AN1219 IR21 IR30 M6805 motorola multiplier PDF

    IR21

    Abstract: IR30 M6805 M68HC08 68HC05 AN1219
    Text: Order this document by AN1219/D Rev. 1.0 Freescale Semiconductor AN1219 Freescale Semiconductor, Inc. M68HC08 Integer Math Routines By Mark Johnson CSIC Applications Engineering Austin, Texas Introduction This application note discusses six integer math subroutines 1 that take


    Original     		AN1219/D AN1219 M68HC08 68HC08 68HC05 68HC05 IR21 IR30 M6805 AN1219 PDF

    C1ea 0042

    Abstract: c17f C1ea 0041 C79F c26f c7aa C043 C557 DAYTON C203 ac 1084 0515
    Text: Order this document by AN974/D Freescale Semiconductor Freescale Semiconductor, Inc. AN974 MC68HC11 Floating-Point Package Introduction The MC68HC11 is a very powerful and capable single-chip microcontroller. Its concise instruction set combined with six powerful


    Original     		AN974/D AN974 MC68HC11 16-bit MC68HC11, C1ea 0042 c17f C1ea 0041 C79F c26f c7aa C043 C557 DAYTON C203 ac 1084 0515 PDF

    C1ea 0042

    Abstract: C1ea 0041 C1EA- 0041 C79F c845 C5F3 transistor C839 c7aa motorola c858 C004 1102 0734
    Text: Order this document by AN974/D Motorola Semiconductor Application Note AN974 MC68HC11 Floating-Point Package Introduction The MC68HC11 is a very powerful and capable single-chip microcontroller. Its concise instruction set combined with six powerful addressing modes, true bit manipulation, 16-bit arithmetic operations,


    Original     		AN974/D AN974 MC68HC11 16-bit MC68HC11, C1ea 0042 C1ea 0041 C1EA- 0041 C79F c845 C5F3 transistor C839 c7aa motorola c858 C004 1102 0734 PDF

    C1ea 0042

    Abstract: C1ea 0041 cq 0765 transistor C839 C79F C71A motorola c858 transistor c789 6A c829 transistor datasheet C737
    Text: Freescale Semiconductor, Inc. Order this document by AN974/D Motorola Semiconductor Application Note Freescale Semiconductor, Inc. AN974 MC68HC11 Floating-Point Package Introduction The MC68HC11 is a very powerful and capable single-chip microcontroller. Its concise instruction set combined with six powerful


    Original     		AN974/D AN974 MC68HC11 16-bit MC68HC11, C1ea 0042 C1ea 0041 cq 0765 transistor C839 C79F C71A motorola c858 transistor c789 6A c829 transistor datasheet C737 PDF

    types of multipliers

    Abstract: 4-input-XOR 4 INPUT XOR block diagram 8 bit booth multiplier Tx chain 32 bit adder 16-bit adder 16 bit adder AX500 A54SX32A
    Text: Application Note AC163 Axcelerator Carry-Connect Macros I n tro du ct i on The C-cell features the following Figure 1 : The Axcelerator dedicated carry-chain logic offers a very compact solution for implementing arithmetic functions without sacrificing performance. The AX architecture, on


    Original     		AC163 types of multipliers 4-input-XOR 4 INPUT XOR block diagram 8 bit booth multiplier Tx chain 32 bit adder 16-bit adder 16 bit adder AX500 A54SX32A PDF

    SPRDE01A

    Abstract: radix-2 DIT FFT C code SLAUE10B MACS32 MPYS32 Diode A3X MSP430 Family Architecture MSP430x33x Carry save Multiplier MSP430
    Text: The MSP430 Hardware Multiplier Function and Applications Application Report April 1999 Mixed Signal Products SLAA042 IMPORTANT NOTICE Texas Instruments and its subsidiaries TI reserve the right to make changes to their products or to discontinue any product or service without notice, and advise customers to obtain the latest version of relevant information


    Original     		MSP430 SLAA042 0fa16h 00013h 16-bit 32-bit SLAUE10B SLAAE10B SPRDE01A radix-2 DIT FFT C code SLAUE10B MACS32 MPYS32 Diode A3X MSP430 Family Architecture MSP430x33x Carry save Multiplier PDF

    Motorola MPC556

    Abstract: mpc556 MPC500 MPC555 MPC555/MPC556
    Text: SECTION 3 CENTRAL PROCESSING UNIT The PowerPC-based RISC processor RCPU used in the MPC500 family of microcontrollers integrates five independent execution units: an integer unit (IU), a load/ store unit (LSU), and a branch processing unit (BPU), floating-point unit (FPU) and integer multiplier divider (IMD). The use of simple instructions with rapid execution times


    Original     		MPC500 MPC555 MPC556-based MPC556 MPC556 Motorola MPC556 MPC555/MPC556 PDF

    MPC500

    Abstract: MPC555 MPC556
    Text: SECTION 3 CENTRAL PROCESSING UNIT The PowerPC-based RISC processor RCPU used in the MPC500 family of microcontrollers integrates five independent execution units: an integer unit (IU), a load/ store unit (LSU), and a branch processing unit (BPU), floating-point unit (FPU) and integer multiplier divider (IMD). The use of simple instructions with rapid execution times


    Original     		MPC500 MPC555 MPC556-based MPC556 MPC556 PDF

    CR16B

    Abstract: No abstract text available
    Text: , , National Semiconductor TM 16-Bit COMPACTRISCTM Architecture Features Introduction CompactRISC processor cores are designed specifically for embedded applications. The CompactRISC architecture is available in a wide range of implementations, supported by a common set of software development


    Original     		16-Bit 64bit CR16B PDF

    BY256

    Abstract: tda 7223 asm 1011 3D28 COS360 M32C M32C83 M37906 sine cosine phase quadrant look-up address fix Automotive Controllers mitsubishi
    Text: To all our customers Regarding the change of names mentioned in the document, such as Mitsubishi Electric and Mitsubishi XX, to Renesas Technology Corp. The semiconductor operations of Hitachi and Mitsubishi Electric were transferred to Renesas Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog


    Original     		PDF

    SXM 08

    Abstract: Architecture of TMS320C54X with diagram SPRU518 SPRU147 GSM modem M10 time division speech scrambler k875 block diagram of of TMS320C54X speech scrambler Viterbi Trellis Decoder texas
    Text: TMS320C54x DSP Programmer’s Guide Literature Number: SPRU538 July 2001 Printed on Recycled Paper IMPORTANT NOTICE Texas Instruments and its subsidiaries TI reserve the right to make changes to their products or to discontinue any product or service without notice, and advise customers to obtain the latest


    Original     		TMS320C54x SPRU538 SPRU518) SXM 08 Architecture of TMS320C54X with diagram SPRU518 SPRU147 GSM modem M10 time division speech scrambler k875 block diagram of of TMS320C54X speech scrambler Viterbi Trellis Decoder texas PDF

    binary bcd conversion

    Abstract: AN13 hex bcd conversion mul1616 IND5
    Text: SX Arithmetic Routines Application Note 13 July 1999 1.0 Introduction The following program segment illustrates 32 bit binary addition. The 4-byte operand1 and the 4-byte operand2 are added together. The result is put back into operand2. This application note presents programming techniques


    Original     		SXL-AN13-01 binary bcd conversion AN13 hex bcd conversion mul1616 IND5 PDF

    binary bcd conversion

    Abstract: BCD DIVISION bcd arithmetic bcd binary conversion application note binary bcd conversion application note binary numbers multiplication M1616 AN13 0A09 Ubicom Semiconductor
    Text: SX Arithmetic Routines Application Note 13 November 2000 1.0 Introduction The following program segment illustrates 32 bit binary addition. The 4-byte operand1 and the 4-byte operand2 are added together. The result is put back into operand2. This application note presents programming techniques


    Original     		AN13-02 binary bcd conversion BCD DIVISION bcd arithmetic bcd binary conversion application note binary bcd conversion application note binary numbers multiplication M1616 AN13 0A09 Ubicom Semiconductor PDF

    MTP23PO6

    Abstract: PID control pwm KD 2107 WHAT IS BY 028F LMT100 028F P16C56 United Detector Technology 020D lm358 sum pid dc motor microchip an
    Text: Intelligent Remote Positioner AN531 Intelligent Remote Positioner Motor Control Author: Steven Frank - Vesta Technology Inc. The commanded positions are presented to the PIC16C5X via a microwire type protocol at bit-rates of up to 50kb/s for the 4 MHz part. As currently implemented


    Original     		AN531 PIC16C5X 50kb/s MTP23PO6 PID control pwm KD 2107 WHAT IS BY 028F LMT100 028F P16C56 United Detector Technology 020D lm358 sum pid dc motor microchip an PDF

    ALL TYPE IC DATA AND manual substitution BOOK

    Abstract: MPY16 tesla 516 68HC908LJ12 908LJ12 DRM040 IEC61036 M68HC08 MON08 C07F
    Text: Freescale Semiconductor, Inc. Freescale Semiconductor, Inc. Single Phase Digital Power Meter Reference Design Designer Reference Manual M68HC08 Microcontrollers DRM040/D Rev. 0, 4/2003 MOTOROLA.COM/SEMICONDUCTORS For More Information On This Product, Go to: www.freescale.com


    Original     		M68HC08 DRM040/D DRM040 ALL TYPE IC DATA AND manual substitution BOOK MPY16 tesla 516 68HC908LJ12 908LJ12 IEC61036 M68HC08 MON08 C07F PDF

    ADSP-2100

    Abstract: integer division 4 bits by 2 bits division algorithm LSHI
    Text: Fixed-Point Arithmetic 2.1 2 OVERVIEW Binary number representations usually include a sign and a radix point, as well as a magnitude. The sign shows whether the number is positive or negative. The radix point separates the integer and fractional parts of the


    Original     		ADSP-2100, ADSP-2100 integer division 4 bits by 2 bits division algorithm LSHI PDF

    a939

    Abstract: 73B5 ms 7254 ver 1.1 6A33 6E2d 7931 la 7830 A82E AN542 IDT71256
    Text: AN542 Implementation of Fast Fourier Transforms Amar Palacherla Microchip Technology Inc. INTRODUCTION Fourier transforms are one of the fundamental operations in signal processing. In digital computations, Discrete Fourier Transforms DFT are used to describe, represent, and analyze discrete-time signals.


    Original     		AN542 PIC17C42. DS00542C-page a939 73B5 ms 7254 ver 1.1 6A33 6E2d 7931 la 7830 A82E AN542 IDT71256 PDF

    C1ea 0042

    Abstract: EB1305 c17f mps 0924 MPS 0743 C35E c17c MPS 0729 C43E mps 0548
    Text: Order this document by AN974/D MOTOROLA •a SEMICONDUCTOR APPLICATION NOTE AN974 MC68HC11 Floating-Point Package INTRODUCTION The MC68HC11 is a very powerful and capable single­ chip microcomputer. Its concise instruction set combined with six powerful addressing modes, true bit manipula­


    OCR Scan     		AN974/D AN974 MC68HC11 16-bit MC68HC11, C1ea 0042 EB1305 c17f mps 0924 MPS 0743 C35E c17c MPS 0729 C43E mps 0548 PDF

    carry save adder

    Abstract: F384 74F384 N74F384D N74F384N
    Text: FAST 74F384 Signetics Multiplier 8-Bit Serial/Parallel Two's Complement Multiplier Preliminary Specification FAST Products FEATURES DESCRIPTION The 'F384 is an 8-bit sequential logic element that multiplies two numbers rep­ resented In Two's Complement notation.


    OCR Scan     		74F384 500ns carry save adder F384 74F384 N74F384D N74F384N PDF

    Untitled

    Abstract: No abstract text available
    Text: FAST 74F384 Signetics M ultiplier 8-Bit Serial/Parallel Two's Complement Multiplier Preliminary Specification FAST Products FEATURES DESCRIPTION The 'F384 is an 8-bit sequential logic element that multiplies two numbers rep­ resented in Two's Complement notation.


    OCR Scan     		74F384 100MHz 16-Pin 500ns PDF