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    diagram of high frequency pvc welding machine

    Abstract: IM08-1B5PS-ZC1 CM30-16BPP-KC1 CM18-12NPP-KC1 IQ10-03BPS-KT1 sensor IM18-08BPS-ZC1 SICK MAKE IM08-1B5PS-ZT1 IM08-1B5PS-ZWK IM04-0B6PS-ZU1 zck m1
    Text: C a t a l o g u e SICK Sensors for Automation I n d u c t i v e Pro x i m i t y S e n s o r s • C a p a c i t i v e Pro x i m i t y S e n s o r s M a g n e t i c P ro x i m i t y S e n s o r s • M a g n e t i c C y l i n d e r S e n s o r s Contents Glossary


    Original     		PDF

    IME12-04BPSZW2K

    Abstract: IME12-02BPSZC0S IME12-08NNSZW2K ime12-04bnszw2k IME12-08NPSZW2S IME12-04NPSZC0S IME12-04NNSZC0S IME12-08NPSZC0S IME12-04NPSZW2S IME12-04NPSZC0K
    Text: Inductive sensor, IME series, IME12, DC3-wire, Standard series, Flush Dimensional drawing 3 2 Inductive sensor Short-circuit protection pulsed Robust brass housing, nickel-plated with fine thread M12 x 1 mm Enclosure rating IP 67 Flush Installation M12x1


    Original     		PDF IME12, M12x1 IME12-02BNSZC0S IME12-02BPSZC0S IME12-02BNOZW2S IME12-02BNSZW2S IME12-02BPOZW2S IME12-02BPSZW2S IME12-02BNOZC0S IME12-04BPSZW2K IME12-02BPSZC0S IME12-08NNSZW2K ime12-04bnszw2k IME12-08NPSZW2S IME12-04NPSZC0S IME12-04NNSZC0S IME12-08NPSZC0S IME12-04NPSZW2S IME12-04NPSZC0K

    IME12

    Abstract: IME12-04BPOZC0S IME12-04BNSZC0S IME12-04BNOZC0S IME12-04BPSZW2S IM12E-04BPSZC0S 04BPS sick sensor ime12 IME12-04BNSZ IME12-04BNSZW2S
    Text: Inductive sensor, IME series, IME12, DC3-wire, Advanced series, Quasi-flush Dimensional drawing 3 2 Inductive sensor Enhanced sensing range Short-circuit protection pulsed Robust brass housing, nickel-plated with fine thread M12 x 1 mm Enclosure rating Quasi-flush installation


    Original     		PDF IME12, M12x1 IME12-04BNSZC0S IM12E-04BPSZC0S IME12-04BNOZW2S IME12-04BNSZW2S IME12-04BPOZW2S IME12-04BPSZW2S IME12-04BNOZC0S IME12 IME12-04BPOZC0S IME12-04BNSZC0S IME12-04BNOZC0S IME12-04BPSZW2S IM12E-04BPSZC0S 04BPS sick sensor ime12 IME12-04BNSZ IME12-04BNSZW2S

    ST37 steel

    Abstract: IM12-06BPS-NC1 IM12-10NPS-NC1 steel st37 IM12-06BNS-NC1 IM12-06BPO-NC1 tightening torque aluminium IM12-10nns-nc1
    Text: Inductive sensor, IM 12, DC 3-wire, INOX series Dimensional drawing M12x1 3 Ø 10.5 2 Inductive sensor 1 Triple sensing range Robust stainless steel V4A, 316L one piece housing, with fine thread M12 x 1 mm Enclosure rating IP 69K + IP 68 Especially suitable for use in the


    Original     		PDF M12x1 IM12-06BPO-NC1 IM12-06BNS-NC1 IM12-06BPS-NC1 IM12-10NNS-NC1 IM12-10NPS-NC1 ST37 steel IM12-06BPS-NC1 IM12-10NPS-NC1 steel st37 IM12-06BNS-NC1 IM12-06BPO-NC1 tightening torque aluminium IM12-10nns-nc1

    g 999 sab

    Abstract: a7v dual zener diode AGERE DSP DSP16000 DSP16210 ed28 zener transistor a7g n17 u1
    Text: Advisory April 2002 DSP16000 Core In the DSP16000 core, the contents of the internal do loop cache are also accessible as memory at location 0x1ffc0 in most DSP16000 devices in order to facilitate saving and restoring of the cache contents on a subroutine call or context switch.


    Original     		PDF DSP16000 g 999 sab a7v dual zener diode AGERE DSP DSP16210 ed28 zener transistor a7g n17 u1

    STR 6750

    Abstract: ed28 zener DSP16410 DSP16410B DSP16410C ED11 ED15 ED17 ED26 zener diode c20 5t
    Text: Data Addendum May 2001 DSP16410C Digital Signal Processor 1 Introduction 3 Device Identification This addendum contains information specific to the DSP16410C. The DSP16410C is pin-compatible and functionally identical to the DSP16410B. However, the DSP16410C provides higher speed operation and


    Original     		PDF DSP16410C DSP16410C. DSP16410B. DSP16410B DS01-070WTEC) STR 6750 ed28 zener DSP16410 ED11 ED15 ED17 ED26 zener diode c20 5t

    motorola g18 gsm

    Abstract: Y6 ZENER DIODE 7809 TO-220 ST ed28 zener motorola g18 gsm datasheet DSP16000 DSP1620 DSP16410B DA0001 motorola g18 gsm 900/1800/1900 data module
    Text: Data Sheet June 2001 DSP16410B Digital Signal Processor 1 Features „ „ Twin DSP16000 dual-MAC cores for high throughput: — Up to 740 million MACs per second at 185 MHz — Supports 16+ channels of speech coding or modem processing Low power: — 1.8 V internal supply for power efficiency


    Original     		PDF DSP16410B DSP16000 16-bit 32-bit 32-biote motorola g18 gsm Y6 ZENER DIODE 7809 TO-220 ST ed28 zener motorola g18 gsm datasheet DSP1620 DA0001 motorola g18 gsm 900/1800/1900 data module

    STR 6750

    Abstract: block diagram of 8*8 array multiplier CASE DIODE A5L 7809 pi 7809 voltage regulator datasheet ed28 zener DSP16000 DSP16410C DSP16410CG gsm model
    Text: Data Sheet May 2003 DSP16410CG Digital Signal Processor 1 Features ! Twin DSP16000 dual-MAC cores perform up to 780 million MACs per second at 195 MHz ! Low power: — 1.575 V internal supply for power efficiency — 3.3 V I/O pin supply for compatibility


    Original     		PDF DSP16410CG DSP16000 16-bit DS02-272WINF DA02-001WINF) STR 6750 block diagram of 8*8 array multiplier CASE DIODE A5L 7809 pi 7809 voltage regulator datasheet ed28 zener DSP16410C gsm model

    16411A1

    Abstract: MARKING CODE ADEE ED9 marking diode Marking a4v DSP16000 marking code A6V DSP16410 DSP16411 TDO01 DSP16K
    Text: Advisory December 2002 DSP16411 SEMI Design Exception Overview Agere Systems’ DSP16411 is the next-generation digital signal processor based on the DSP16000 core architecture offering increased speed and on-chip memory. The system and external memory interface


    Original     		PDF DSP16411 DSP16000 DSP16410B DSP16410CG DSP16411 16411A1 MARKING CODE ADEE ED9 marking diode Marking a4v marking code A6V DSP16410 TDO01 DSP16K

    322k

    Abstract: DSP16210 DSP16000
    Text: Advisory April 2002 DSP16000 Core In the DSP16000 core, the contents of the internal do loop cache are also accessible as memory at location 0x1ffc0 in most DSP16000 devices in order to facilitate saving and restoring of the cache contents on a subroutine call or context switch.


    Original     		PDF DSP16000 DSP16410B DSP16410CG DSP16411 322k DSP16210

    ADEE 275

    Abstract: T75 TYPE 2000 pna60
    Text: Advance Data Sheet April 2002 DSP16411 Digital Signal Processor 1 Features „ Two IEEE 1149.1 test ports JTAG boundary scan „ Twin DSP16000 dual-MAC cores perform up to 960 million MACs per second at 240 MHz „ Low power: — 1.0 V internal supply for power efficiency


    Original     		PDF DSP16411 DSP16000 DSP16410B DSP16410CG ADEE 275 T75 TYPE 2000 pna60

    ADEE 275

    Abstract: 16411A1 MARKING CODE ADEE bas marking code a6 DA02-001WINF pna60 ADEE switch t85 M1641
    Text: Advisory December 2002 DSP16411 Speed and Core Voltage Migration Overview Changes This document describes the migration of the Agere Systems DSP16411 from a core supply voltage VDD1, VDD1A of 1.0 V nominal to 1.2 V nominal. Associated with this increase in core supply voltage is a corresponding increase in operating frequency. Otherwise,


    Original     		PDF DSP16411 DS02-037WINF, DSP16410B DSP16410CG ADEE 275 16411A1 MARKING CODE ADEE bas marking code a6 DA02-001WINF pna60 ADEE switch t85 M1641

    SRUN10

    Abstract: No abstract text available
    Text: Data Sheet March 2003 DSP16411 Digital Signal Processor 1 Features ! Twin DSP16000 dual-MAC cores perform up to 1140 million MACs per second at 285 MHz ! Low power: — 1.2 V internal supply for power efficiency — 3.3 V I/O pin supply for compatibility !


    Original     		PDF DSP16411 208-ball DSP16000 SRUN10

    CI 4017

    Abstract: Agere 217 PBGA Agere outline drawings 217 pbga DSP16000 DSP16410CG DSP16411
    Text: Data Sheet May 2003 DSP16411 Digital Signal Processor 1 Features ! Twin DSP16000 dual-MAC cores perform up to 1140 million MACs per second at 285 MHz ! Low power: — 1.2 V internal supply for power efficiency — 3.3 V I/O pin supply for compatibility ! 322K x 16 on-chip RAM


    Original     		PDF DSP16411 DSP16000 16-bit CI 4017 Agere 217 PBGA Agere outline drawings 217 pbga DSP16410CG