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"2 khz square wave"

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Abstract: kHz Square wave, 10 cm) 8500 pF 25 Vp-p EFBAA40D102 86 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) 7000 pF EFBRD22C41/45 85 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) 15000 pF 30 Vp-p EFBRD22C413 80 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) 15000 pF EFBRD22C415 98 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) 15000 pF EFBRD24C411 85 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) 10000 pF EFBRC24C41B 85 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) 10000 pF EFBRD24C41 80 dB min. (15 Vp-p, 4 kHz Square -
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EFB-RC24C41 EFB-RL37C20 piezoelectric EFBRL37C20 EFBRD22C41 EFBAL30D402 EFBAF24C101 12VDC EFBRL37C20/22 EFBBD32B21 EFBRM38C13 EFBRM38C123 EFBRL20C102
Abstract: , Square wave Distance 10 cm 0 ! D 5 I D 2 0 5 0 10.0 Frequency (kHz) EFBRD22C413 Input voltage: 10 Vp-p , \ L (12 0 5 1 0 2 0 5 0 10 0 Frequency (kHz) EFBRD22C415 Input voltage 10 Vp-p, Square wave , EFBAA14D001 74 dB min (15 Vp-p, 4 kHz Square wave. 10 cm) 8500 pF 25 Vp-p EFBAA40D102 86 dB min, (15Vp-p, 4 kHz Square wave, 10 cm) 7000 pF E FB RD22C41 /4 5 85 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) 15000 pF 30 Vp-p EFBRD22C413 80 dB min. (15 Vp-p. t kHz Square wave, )0 cm) 15000 pF EFBRD22C415 98 -
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EFBRL28C11 EFBRL37C20 EFBRL37 efb-rd panasonic transducers piezoelectric transducer for sound 24TJ- EFBRL37C22 2SC1685 EFB8D32B21
Abstract: 10 2 0 50 10 0 frequency (kHz) EFBRD22C415 Inpul voltage 10 Vp-p. Square wave Distance 10 cm m Ci, D , 2.0 5.0 i Frequency (kHz) EFBRC24C41 Inpul vollage 10 Vp-p. Square wave Distance 10 cm 0 5 1 0 2 0 5 0 , kHz Maximum input Voltage EFBAA14D001 74 dB mm (15 Vp-p. 4 kHz Square wave, 10 cm) 8500 pF 25 Vp-p EFBAA40D102 86 dB mirt. (15 Vp-p. 4 kHz Square wave, 10 cm) 7000 pF EFBRD22C41/45 85 dB nnin. (15 Vp-p 4 kHz Square wave. 10 cm) 15000 pF 30 Vp-p EFBRD22C4Ã3 80 dB miri. (15 Vp-p, 4 kHz Square wave, 10 cm) 15000 -
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EFB CD C947 EFB-BD32B21 EFB-RL28C11 2SC16 MA150
Abstract: Square wave, 10 cm) (24000) EFBAH20C001 80 dB min. (10 Vp-p, 2 kHz Square wave, 10 cm) (21000 , 25 Vp-p EFBAA40D101 80 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) (8300) EFBRD22C41 85 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) (15000) EFBRD22C413 75 dB min. (10 Vp-p, 4 kHz Square wave, 10 cm) (15000) EFBRD24C411 85 dB min. (15 Vp-p, 4 kHz Square wave, 10 cm) (10000) EFBAD12B101 80 dB min. (10 Vp-p, 1 kHz Square wave, 10 cm) (40000) EFBRC24C41 75 Panasonic
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piezoelectric transducer EFB-RD24C411 acoustic b220 efb-rd22c41 efb-rd22c413 EFBAL30D403
Abstract: Square wave " OC _ T " Part Number Format and Example [2] [3] [4] [5] Holder Type , Square Wave , " E " stands for True Sine Wave ex 1 : OC14T , OC14 pcakage , CMOS output ; ex 2 , OC18T OC18E Square Wave Best stability True Sine Wave Min. ±0.01 ppm ( SC-cut , . Output Wave From Square wave. Wave form code is â' T â' Supply Voltage +12V +5 V , -40°C to 85°C ] Ex (2) : OC30GE12S - 100.000 - 0.02 / -20+70 [ OC30 type , RoHS , True Sine wave , 12V Mercury Electronics
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Abstract: filter a square wave This leaves only the sine wave fundamental as the output Since a square wave is , used Instead of driving the tuned circuit with a square wave a symmetrically clipped sine wave is used The clipped sine wave of course has less distortion than a square wave and yields a low distortion , RRD-B30M115 Printed in U S A LB-16 The circuit in Figure 1 will provide both a sine and square wave , the frequency is changed An operational amplifier is used as a tuned circuit driven by square wave National Semiconductor
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C1995 easily tuned oscillator wein bridge circuit square wave generating from sine low frequency sine oscillator Amplifier With Active Output Clipping square waves to sine waves filter
Abstract: dB min (3Vp-p square wave 4.096kHz) 75 dB min (5Vp-p square wave 4.096kHz) 75 dB min (5Vp-p square wave 4.096kHz) 75 dB min (5Vp-p square wave 4.096kHz) 70 dB min (5Vp-p square wave 4.3kHz) 75 dB min (3Vp-p square wave 4.0kHz) 75 dB min (5Vp-p rectangular wave 1.96kHz) 70 dB min (5Vp-p square wave , , 1.1 kHz) 70 dB min (2.5Vrms, sine wave, 1.0kHz) Capacitance at 120Hz (±30%) 35000pF 40 C B41AA 70000pF , C D 25A A R C -2 8 C D 3 0 A A R C -3 -3 3 E CD 15P AR C -5-21 P 105±3dB (1Vrms, sine wave -
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CB20PA-1J CB20PA-J CB13PA-225 CB13PA-215 CB13PA-XZ CB13PA-X5 20BBR4 27BBR5 CB20BBKR B24PAC CS32AAR-M CD20AARC-22U
Abstract: 10 kHz TTL Compatible Voltage Controlled Oscillator 7 TIMING CAPACITOR SQUARE WAVE OUTPUT ·6 TIMING RESISTOR TRIANGLE WAVE OUTPUT M00ULATI0N INPUT T L /H /7 8 5 4 -2 Order , split supply, the square wave output (pin 3) is TTL compatible (2 mA current sink) with the a ririitin n , 200 0.1 0.5 6.0 1 6.6 0.2 1 10:1 7.2 1.5 2 ppm/°C % /V M ii kHz/V % MHz FM Distortion Maximum Sweep Rate Sweep Range Output Impedance Pin 3 Pin 4 Square Wave Output Level Triangle Wave Output Level -
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LM566C LM566CN circuit diagram of o general split ac triangle wave application note LM566 TRIANGLE WAVE OUTPUT
Abstract: Square Wave Output Level Triangle Wave Output Level Square Wave Duty Cycle Square Wave Rise Time Square , = 10k 3 C E ppm/°C 2 %/V M il 7.2 1.5 kHz/V % MHz n n Vp-p Vp-p 60 % ns ns % 5.0 2.0 40 , split (± ) power sup ply. When operating from a split supply, the square wave output (pin 3) is TTL , SQUARE WAVE OUTPUT 5' 3 r* *s# 3> JU 23SNBI + i+ i? o z ObffdiOO tiSTTOST , TEMPERATURE CCI Frequency Stability vs Load Resistance (Square Wave Frequency Stability vs Load -
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S0112M S011E4
Abstract: " T C X O" and "V C T C X O " "T" Series 32.768 KHz Wave Form: Square Wave Logic: HCMOS MERCURY Since 1973 PRODUCT SELECTION GUIDE Product Summary: Output Wave Form: Square Wave TCXO , Voltage Range 32.768 KHz Square wave. Wave form code is "T" Models with mechanical trimmer: < ±1 ppm , O" and "V C T C X O " "T" Series 32.768 KHz Wave Form: Square Wave Logic: HCMOS MERCURY Since , 8 Date: May 1, 2006 Rev. 1 " T C X O" and "V C T C X O " "T" Series 32.768 KHz Wave Form Mercury Electronics
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VM47T VM28T VM38T5-32 FR4 substrate m55t M38 smd m57t VM38T VM39T VM14T VM15T VM55T
Abstract: -57-1 TFM-57-2 TFM-57B 70 /2.0kHz/3VP-P Square Wave /10cm 1.2 /2.0kHz/3VP-P Square Wave 70 /2.0kHz/3VP-P Square Wave /10cm 1.2 /2.0kHz/3VP-P Square Wave 82 /2.7kHz/10VP-P Square Wave /30cm 4 /2.7kHz/10VP-P Square Wave Resonant Frequency (kHz) 2.0 Capacitance at 120Hz (nF) 30 , Wave 6/4.0kHz/12VP-P Square Wave Resonant Frequency (kHz) 4.0 Capacitance at 1000Hz (nF , -57-1 (57-2): H=26.5 H1=22 H2=7 TFM-57B: H=27 H1=22.2 H2=7.1 TFM-57-1 3VP-P Square Wave /10cm EAST
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TFM-59DA-1 TFM-59D H122 H271 TFM 15-9 piezo transducer TFM 38 TFM59DA-1 TFM-59DA-2 12VP-P
Abstract: , UpRamp, DnRamp, Triangle, Noise, Arb (2 mHz to 20 kHz) DC ~ 10 MHz Sine, Square, Ramp, Arb (except DC) Internal/ External Sine, Square, UpRamp, DnRamp, Triangle, Noise, Arb (2 mHz to 20 kHz) 0 ~ 360° Sine, Square, Ramp, Arb (except DC) Internal/ External 50% duty cycle square (2 mHz to 50 kHz) Sine, Square , 1 ÂuHz ±50 ppm in 90 days ±100 ppm in 1 year 18°C ~ 28°C < 5 ppm/°C 2 Sine Wave , Distortion Spurious Signal (non-harmonic) Phase Noise Square Wave Rise/Fall Time Overshoot Duty Cycle RIGOL
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DG1000 DS1000
Abstract: SA60 - 45 KHz +V 0V If you do see two square wave outputs, or one square wave for a half , . AhighimpedanceDCvoltageatAOUTorBOUTorboth.ThatDC voltage can be near OV or near +Vs. Or, 2. The output is not a square wave, but a ramp. Or, 3 , square waves as shown in Figure 2; one is inverted, or 180 degrees out of phase, from the other. For half bridge models, the SA13, SA14, SA16 and SA18, you have only one output and will see only one square wave. The square wave's amplitude should be the same as your power supply voltage, and its frequency is as -
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pwm welder welder controller 45KHZ SA16-22 SA18-22 AN34U
Abstract: ) [1] ±(2% of setting +2 mVpp) Amplitude Flatness (relative to 1 kHz, 5 Vpp Sine wave) [1 , , UpRamp, DnRamp, Triangle, Noise, Arb (2 mHz to 20 kHz) 0% ~ 120% Sine, Square, Ramp, Arb (except DC) Internal/ External Sine, Square, UpRamp, DnRamp, Triangle, Noise, Arb (2 mHz to 20 kHz) DC ~ 10 MHz , , Arb (2 mHz to 20 kHz) 0 ~ 360° Sine, Square, Ramp, Arb (except DC) Internal/ External 50% duty cycle square (2 mHz to 50 kHz) Sine, Square, Ramp, Arb (except DC) Linear or Logarithmic Up or Down RIGOL
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Abstract: from dc to 20 kHz. Figure 1 shows a square wave generating a sine wave of one-ninth its frequency as , voltage. The input is mixed with the square wave output by resistors R4 and R5 shown in Figure 2. The , voltage attenuation of 62 dB. With a ± 44 volt square wave into the filter at 120 kHz, the maximum , Figure 6. A square wave of ± 5 volts at 120 kHz 120 kHz AUDIO INPUT R4 R8 -VW Hf C3 r CURRENT , so, the output of U1D is a square wave at 120 kHz whose duty cycle varies from 0% to 100%. The error -
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AN1042 motorola an1042 MCI4528 motorola u1d diode SG506 MC14046 application AN1042/D C643S4
Abstract: RC-filtered square wave was created by filtering the square wave with a 2 k, 10 nF filter. The baseline , Wave Figure 27. Emission with 10 kHz RC filtered Square Wave Notice in Figure 24 that the related , ) Figure 25. Emission with 10 kHz Sine Wave Summary Modulating the switching frequency with a square , Frequency (MHz) 0.8 1 Figure 26. Emission with 10 kHz Square Wave Modulation with an RC-filtered , domain, a sine wave is represented by a single pulse. A square wave, however, is a much more complex ON Semiconductor
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mercury smps circuit diagram IC Generator to 10MHz triangle Christophe Basso SMPS IC 2003 sine wave generator technique AND8428 AND8428/D
Abstract: .[30Vp-p,1.1 kHz,square wave,1m] 70 min.[30Vp-p,1,2kHz,square wave,1 m] 70 min.[30Vp-p,1kHz,square wave , wave,10cm] 70 min.[3Vp-p,4kHz,square wave,10cm] 70 min.[3Vp-p,4kHz,square wave,10cm] 70 min.[3Vo-p,2kHz,square wave,10cm] 72 min.[3Vp-p,4kHz,square wave,10cm] 72 min.[3Vp-p,4kHz,square wave, 10cm] 75 min.[3Vp-p,4kHz,square wave,10cm] 75 min.[3Vp-p,4kHz,square wave, 10cm] 72 min.[3Vp-p,2kHz,square wave,10cm] 75 min.[3Vp-p,4kHz,square wave,10cm] 75 min.[3Vp-p,2kHz,square wave,10cm] 75 min.[3Vp-p,2kHz,square wave -
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PKM13EPY-4000-A0 PKM13EPY-4002-B0 PKM17EPP-2002-B0 PKM17EPP-4001-B0 PKM24SP-3801 PKM34EW-1101C PKM22EPP-40 PKM22EPP PKM34EW pkm44ew-1001c PKLCS1212E4001 PKM17EW-4000 PKM22EP-2001
Abstract: /0.8kHz/9VP-P Square Wave / 10cm Wave / 30cm Wave / 30cm 6 /0.8kHz/9VP-P Square 6 /1.0kHz/12VP-P Square Wave Max . Consumption (mA) Wave Resonant Frequency 1.0 0.5 0.8 0.5 (kHz) Capacitance at , Wave 6/4.0kHz/12VP-P Square Wave Resonant Frequency (kHz) 4.0 Capacitance at 1000Hz (nF , ) TFM-05B 100 100 110 CHARACTERISTICS: 12VP-P Square Wave/30cm ELECTRICAL SPECIFICATIONS , .7 CHARACTERISTICS: TFM-59D TFM-59DA-1 3VP-P Square Wave /10cmTFM-59DA-2 12VP-P Square Wave /10cm ELECTRICAL EAST
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TFM-05BA 12VPP TFM-05BB 1000H
Abstract: 45 KHz If you do see two square wave outputs, or one square wave for a half bridge PWM amplifier , oscilloscope to look at the waveforms at AOUT and BOUT. You should see two square waves as shown in Figure 2 , , SA16 and SA18, you have only one output and will see only one square wave. The square wave's amplitude should be the same as your power supply voltage, and its frequency is as follows: SA01 - 42 KHz , AOUT or BOUT or both. That DC voltage can be near 0V or near +Vs. Or, 2. The output is not a square Apex Microtechnology
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PWM AMPLIFIER capacitor discharge welder welder circuit diagram APEX sa03 high frequency welder circuit diagram 45 khz
Abstract: -P Square Wave Resonant Frequency (kHz) 4.0 Capacitance at 1000Hz (nF) 11 Allowable Input , -p Square Wave / 30cm TFM-01B0 9Vp-p Square Wave /10cm ELECTRICAL SPECIFICATIONS : Model No. Min , -01 TFM-01B0 75/1.3kHz/12Vp-p Square Wave / 30cm 3.5/1.3kHz/12Vp-p Square Wave 90/3.5kHz/9Vp-p Square Wave /10cm 5/3.5kHz/9Vp-p Square Wave 1.3 0.5 3.5 45 30% 40 -20 ~ +70 3.5 ABS , -59DA-1 3VP-P Square Wave /10cmTFM-59DA-2 12VP-P Square Wave /10cm ELECTRICAL SPECIFICATIONS : Model No EAST
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TFM-01 01B0
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