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Part Manufacturer Description Datasheet Download Buy Part
EH7121-000 TE Connectivity (EH7121-000) BOW-OCP2-29S-BEM-222
CJ3388-000 TE Connectivity (CJ3388-000) BOW-OCP2-22L-BDM
F77203-000 TE Connectivity (F77203-000) BOW-OCP2-10L-NFF
CN8477-000 TE Connectivity (CN8477-000) BOW-DA1-30F-Q0F0N0-030
D67995-000 TE Connectivity (D67995-000) BOW-OCP2-12S-NFF
EA4627-000 TE Connectivity (EA4627-000) BOW-OCP2-13S-NFF

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2005 - kd 012GL

Abstract:
Text: selector max. 4 pos* KD11.4199.105 KD-Bowdencable Snap-in 1.5 1-pole Switch for Bow - without KD11.4199.107 KD-Bowdencable Snap-in 2 1-pole Switch for Bow - without KD11.4199.109 KD-Bowdencable Snap-in 2.5 1-pole Switch for Bow - without KD14.4199.105 KD-Bowdencable Snap-in 1.5 2-pole Switch for Bow - without KD14.4199.107 KD-Bowdencable Snap-in 2 2-pole Switch for Bow - without KD14.4199.109 KD-Bowdencable Snap-in 2.5 2


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Ask Receiver module

Abstract:
Text: . Functional Principle: A common electro-dynamic energy transducer is actuated by a bow , which can be pushed , energy bow is pushed down, electrical energy is created and a RF telegram is transmitted including a 32-bit module ID. Releasing the energy bow generates different telegram data, so every PTM telegram contains the information that the bow was pressed or released. In addition, the radio telegram transmits the operating status of 4 contact nipples when activating the bow . This enables the identification of up to 2


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PDF 32-bit S3001-A200 D-82041 Ask Receiver module Remote Control Receiver IC Indoor Antenna radio frequency remote control transmitter module 868Mhz Ask Receiver module of enocean PTM Switch wireless remote control unit
Not Available

Abstract:
Text: pushbuttons Functional Principle A common electro-dynamic energy transducer is actuated by a bow , which can , . When the energy bow is pushed down, electrical energy is created and a RF telegram is transmitted including a 32-bit module ID. Releasing the energy bow generates different telegram data, so every PTM telegram contains the information that the bow was pressed or released. In addition, the radio telegram transmits the operating status of 4 contact nipples when activating the bow . This enables the identification


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PDF 32-bit
Not Available

Abstract:
Text: pushbuttons Functional Principle A common electro-dynamic energy transducer is actuated by a bow , which can , . When the energy bow is pushed down, electrical energy is created and a RF telegram is transmitted including a 32-bit module ID. Releasing the energy bow generates different telegram data, so every PTM telegram contains the information that the bow was pressed or released. In addition, the radio telegram transmits the operating status of 4 contact nipples when activating the bow . This enables the identification


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PDF 32-bit PTM200C
S3051-A210

Abstract:
Text: bow , which can be pushed from outside the module on the left or right by an appropriate pushbutton or switch rocker. When the energy bow is pushed down, electrical energy is created and a RF telegram is transmitted including a 32-bit module ID. Releasing the energy bow generates different telegram data, so every PTM telegram contains the information that the bow was pressed or released. In addition, the radio telegram transmits the operating status of 4 contact nipples when activating the bow . This


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PDF 32-bit F6-02-xx, F6-04-xx AES128 S3051-A210 S3051A
74HC74 quadrature encoder

Abstract:
Text: by the DACs, the polarities come via pins STO0, STO2 and STO4. AN453_15: Range for bow an acceleration values In order to always get a stable bow and acceleration behaviour, some some limits for the setting of the bow and anom values should be observed. Since the integrators in the ramp generator uses 1/256 of bow value to increase the acceleration until a_nom is reached, and 1/256 of acceleration , bow <= 256 * a_nom This is mandatory for the automatic ramp to work. If these rules are violated


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PDF TMC453 TMC453 TMC453, TMC453. A3958 74HC74 quadrature encoder Sine Wave Generator using 8051 stepper motor interface with 8051 stepper motor with 8051"" how to interface microcontroller with encoder stepper motor with 8051 AN4536 5-phase drive STEPPER MOTOR disadvantages of microcontroller 8051 stepper motor and 8051
D-82041

Abstract:
Text: . Functional Principle: A common electro-dynamic energy transducer is actuated by a bow , which can be pushed , energy bow is pushed down, electrical energy is created and a RF telegram is transmitted including a 32-bit module ID. Releasing the energy bow generates different telegram data, so every PTM telegram contains the information that the bow was pressed or released. In addition, the radio telegram transmits the operating status of 4 contact nipples when activating the bow . This enables the identification of up to 2


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PDF 32-bit S3001-A200 D-82041 EnOcean free energy generator ptm200 S3001-A200
2006 - 1440-VST02-01RA

Abstract:
Text: bow in a rotor. Rotor bow can be a fixed mechanical bow , or it can be a temporary bow caused by uneven thermal heating or simply by the weight of the rotor (gravity bow ). Knowing and managing the amount of rotor bow is critical to the startup of most steam turbines. The XM-120E provides four key , the rotor bow in m or mils. · Gap: Volts · Min Gap: Volts · Max Gap: Volts · Speed: RPM


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PDF XM-120E XM120 XM-120E, XM-120. XM-120 1440-VST02-01RA 1440-TB-A 1440-VST02-01RA 1440-TB-A TACHOMETER 1440-SCDB9FXM2 of eddy current tachometer Allen-Bradley 1440-VST02-01RA data sheet of eddy current tachometer DC tachometer
LM1291

Abstract:
Text: bow . A DC controlled output is provided for vertical dynamic focus correction. The IC is packaged in , €” v dyn focus h trap cntl — 1 1 14 — h dyn cntr h para cntl — 12 13 — h bow cntl TL/H , , horizontal trapezoid, horizontal parallelogram and horizontal bow . The amount and polarity of the corrections , each for V Dyn Focus, E-W Pin, and H Bow . VOLTAGE CONTROLLED AMPLIFIERS The V Dyn Focus voltage , gain at 4V, and maximum negative gain at 0V. The E-W Pin, H Bow , H Trap and H Para voltage controlled


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PDF LM1295 LM1295 24-pin LM1291 LM1295N N24C y4w 43 y4w 47
SZV-PTM200

Abstract:
Text: solutions. (1) Energy bow on both device sides (2) Contact nipples for switch rocker identification , transducer is actuated by a bow (1), which can be pushed from outside the device on the left or right by an appropriate pushbutton or switch rocker. When the energy bow is pushed down, electrical energy is created and an RF telegram is transmitted including a 32-bit device ID. Releasing the energy bow generates different telegram data, so every PTM telegram contains the information that the bow was pressed or


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PDF EPM100 868MHz SZV-PTM200 H5001-A210 ptm200 A500 energy meter codes H5001-A222 HOSTAFORM PTM Switch
LM1291

Abstract:
Text: bow . A DC controlled output is provided for vertical dynamic focus correction. The IC is packaged in , focus h trap cntl — 1 1 14 — h dyn cntr h para cntl — 12 13 — h bow cntl tl/h/12324-1 , , East-West pincushion, horizontal trapezoid, horizontal parallelogram and horizontal bow . The amount and , Focus, E-W Pin, and H Bow . VOLTAGE CONTROLLED AMPLIFIERS The V Dyn Focus voltage controlled amplifier , maximum negative gain at 0V. The E-W Pin, H Bow , H Trap and H Para voltage controlled amplifiers are


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PDF LM1295 LM1295 24-pin 20-3A b5D1124 LM1291 free circuit diagram for voltage controlled oscillator LM1295N N24C
LM1291

Abstract:
Text: and bow . A DC controlled output is provided for vertical dynamic focus correction. The IC is , h trap cntl — 1 1 14 — h dyn cntr h para cntl — 12 13 — h bow cntl FIGURE 1 Order , horizontal bow . The amount and polarity of the corrections are controlled by voltages between OV and 4V. The , multipliers used as voltage controlled amplifiers, one each for V Dyn Focus, E-W Pin, and H Bow . VOLTAGE , Pin, H Bow , H Trap and H Para voltage controlled amplifiers are identical to the V Dyn Focus stage


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PDF LM1295 LM1295 24-pin tl/h/12324-5 bSD1124 TL/H/12324-9 LMf295, LM1291 LM1295N N24C vertical resistor
1999 - 8051 stepper motor interfacing

Abstract:
Text: dialogue Autoramp to Position (new bow , acceleration and velocity values) Set e.g. 20 for bow . bow is the acceleration of the acceleration of the motor. A low bow causes a smooth start of the motor, the higher the , (Autoramp to Position, new_b, a_nom, v_nom) allows you to define new dynamic parameters. A negative bow , position (ramp_pos_act) . Key " 3" programs an automatic ramp. The software asks for values for bow , acceleration, velocity and position. The sign of the bow is taken by the software for acceleration and


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PDF TMC453 TMC453. 8051-compatible C505C HC373 NJM3771 L6219 TLE5250 8051 stepper motor interfacing digital voltmeter with 8051 3 phase DC motor ESC circuit dc motor interface with 8051 stepper motor interface with 8051 stepper motor with 8051 schematic diagram motor control incremental encoders siemens circuit diagram of pid controller 5-phase drive STEPPER MOTOR
LM1291

Abstract:
Text: EW pincushion and trapezoid. The second corrects for parallelogram and bow . A DC controlled output is , CAP GND V DY N FO C U S 15 - V DY N F O C U S CN T L 14 13 - H D Y N CNTR H BOW CN T L T , parallelo gram and horizontal bow . The amount and polarity of the corrections are controlled by voltages , , and H Bow . VOLTAGE CONTROLLED AMPLIFIERS The V Dyn Focus voltage controlled amplifier is controlled by , gain at 0V. The E-W Pin, H Bow , H Trap and H Para voltage controlled amplifiers are identical to the V


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PDF LM1295 LM1291
1995 - 100 mf capacitor

Abstract:
Text: trapezoid The second corrects for parallelogram and bow A DC controlled output is provided for vertical , trapezoid horizontal parallelogram and horizontal bow The amount and polarity of the corrections are , voltage controlled amplifiers one each for V Dyn Focus E-W Pin and H Bow VOLTAGE CONTROLLED AMPLIFIERS , 2V input maximum positive gain at 4V and maximum negative gain at 0V The E-W Pin H Bow H Trap and H , corresponding Cntl input The bandwidth of the Cntl inputs is greater than 125 kHz The E-W Pin and H Bow


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PDF LM1295 LM1295 24-pin 100 mf capacitor LM1291 14 pin ic dip datasheet C1995 IC vertical monitor LM1295N N24C
LM1291

Abstract:
Text: parallelogram and bow . A DC controlled output is provided for vertical dynamic focus correction. The IC is , focus h trap cntl — 1 1 1 4 — h dyn cntr h para cntl — 12 1 3 — h bow cntl tl/h/12324-1 , trapezoid, horizontal parallelogram and horizontal bow . The amount and polarity of the corrections are , , and H Bow . VOLTAGE CONTROLLED AMPLIFIERS The V Dyn Focus voltage controlled amplifier is controlled , gain at 0V. The E-W Pin, H Bow , H Trap and H Para voltage controlled amplifiers are identical to the V


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PDF LM1295 LM1295 24-pin 20-3A LM1291 "Op Amp" lm 324 LM1295N N24C ramp generator 555 y4w 43 y4w 54
1999 - LM1291

Abstract:
Text: trapezoid. The second corrects for parallelogram and bow . A DC controlled output is provided for vertical , ) DS012324-20 +V Drive Output (Pin 24) DS012324-21 DS012324-22 lelogram and horizontal bow . The , Pin, H Bow , H Trap and H Para voltage controlled amplifiers are identical to the V Dyn Focus stage , kHz. The E-W Pin and H Bow amplifiers have the parabolic waveform as their input, and the H Trap and , the H Bow amplifier (parabola) and the H Para amplifier (ramp) are summed together similarly, with H


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PDF LM1295 LM1295 24-pin LM1291 LM1295N N24C
2001 - Intel socket 478 PIN LAYOUT

Abstract:
Text: Bow after Assembly Intel µATX Board and Intel Reference Design The reference mechanical design for , to observe a bow to the board as shown below in the case of an Intel board and the Intel reference design. The level of bow depends on the motherboard material properties and component layout. Intel , Bow after Assembly Boxed Intel® Processor Example The boxed Intel® processor mechanical design for , to observe a bow to the board as shown below in the case of an Intel board and boxed Intel


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PDF 478-Pin A38001-001 A42816-001 478-pin Intel socket 478 PIN LAYOUT 478 SOCKET PIN LAYOUT A38001-001 intel mPGA478 motherboard a38001 Intel Pentium 4 Processor PIN LAYOUT 845 motherboard A42816-001 a38001 001 Nidec fan intel
1999 - LM1291

Abstract:
Text: trapezoid. The second corrects for parallelogram and bow . A DC controlled output is provided for vertical , horizontal bow . The amount and polarity of the corrections are controlled by voltages between 0V and 4V. The , amplifiers, one each for V Dyn Focus, E-W Pin, and H Bow . VOLTAGE CONTROLLED AMPLIFIERS The V Dyn Focus , positive gain at 4V, and maximum negative gain at 0V. The E-W Pin, H Bow , H Trap and H Para voltage , . The bandwidth of the Cntl inputs is greater than 125 kHz. The E-W Pin and H Bow amplifiers have the


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PDF LM1295 LM1295 SNOS742 LM1291
MONOpack LT

Abstract:
Text: Ramp profile: Automatic S-shaped ramps for positioning with programmable parameters for bow , = VMAX (range 0 to 8191) Axxxx = AMAX (range 1 to 8191) Bxxxx = BOW (range 1 to 8191) Fxx = , RS232 Set bow value Control mode C0=Standard C2=external step-/ direction control Drive with , position · Set the frequency range as desired · Set bow , acceleration and velocity · Set the desired , power down the message can appear several times, because of the undervoltage condition. Range for bow


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PDF 2500mA 2500mA TMC453 485-Interface. MONOpack LT lt 5234 blzf5.08 V5234 A8191 LT 485 Direction Finding system AM26C31 Y255
LM1291

Abstract:
Text: and trapezoid. The second co rrects fo r parallelogram and bow . A DC co ntrolled output is provided fo , est pincushion, horizontal trapezoid, horizontal para lle lo gram and horizontal bow . The am ount and , ultipli ers used as voltage co ntrolled am plifiers, one each for V Dyn Focus, E-W Pin, and H Bow . VOLTA G , gain a t 0V. The E-W Pin, H Bow , H Trap and H Para voltage controlled am plifiers are identical to the , is greater than 125 kHz. The E-W Pin and H Bow am plifiers have the parabolic w aveform as their


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PDF LM1295 LM1295 LM1295. LM1295, LM1291
MONOpack

Abstract:
Text: ). 11 4.3.3 Bow Value ($63 , controlled by the bow , acceleration, velocity and pre-divider parameters. See section 4.2.3 for calculating , using command $14) Command $23 (s. 4.3.7) uses S-shaped ramps. With these ramps, the bow parameter is used: a high bow value increases the positioning speed, while a low bow value smoothens the acceleration ramp. The duration of the bow phase can be calculated as follows (compare to the acceleration and


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PDF 1-Oct-04 25-pin RS485 MONOpack 9-to25 ic485-lp-1f 1N4148 rs232 to rs485 converter incremental encoder 5V RS232 Driver cmd 1008 BC547B 470R 202.125
1998 - Not Available

Abstract:
Text: g bow after exposure as follows: HOUSING MATERIAL Rynite Rynite U1tem 2100 Ultem 2100 BARB 0625-0630 BOW Approximately Approximately Approximately Approximately 0.030" 0.015" 0.015" 0.005" 0.040 , test board had a slight bow after exposure of 0.000" to 0.005" In the assembled state, (6B) test units


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PDF SSB-32 4/28/I36
Not Available

Abstract:
Text: CHANGED PACKAGING PER ECR * U5I0I3 95/04/07 J.LO N G ADDED EDP NO. P ER ECR * U40602 5/06/94 JL/ BOW EN , /17/94 JL/ BOW EN ADDED .080 TAIL LENGTH PER ECR * U2I545 10-20-92 JL/ BOW EN ADDED 68 CKT. PCB LAYOUT P ER ECR * U2II66 8/04/92 JL/ BOW EN REVISIONS REVISE ONLY ON CAD SYSTEM IN CH S PLACE * .010 i


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2007 - Not Available

Abstract:
Text: Conditions 208 LEDs 5-1-1 Unicolor lamps s4 Bow Shaped LEDs - External Dimensions 16 SEL4027 , 20 630 10 620 10 35 10 2.0 2.5 10 19 20 560 10 567 10 20 10 Chip Material GaAsP GaP s4 Bow Shaped , Material GaAsP GaAsP GaP s3.1 Bow Shaped LEDs - External Dimensions 18 SEL4028 Series (Viewing angle 2 , GaAsP GaP GaP GaP GaP s3.1 Bow Shaped LEDs - External Dimensions 19 SEL4029 Series (available as


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