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WAVEVISION4 Texas Instruments Data Acquisition and Analysis Software visit Texas Instruments
WAVEVISION5 Texas Instruments Data Acquisition and Analysis Software visit Texas Instruments
CS230002-CZZ Cirrus Logic Clock Driver visit Digikey
CS230003-CZZ Cirrus Logic PLL/Frequency Synthesis Circuit visit Digikey
CS230003-CZZR Cirrus Logic PLL/Frequency Synthesis Circuit visit Digikey
CS230002-CZZR Cirrus Logic Clock Driver visit Digikey

100MHz sine wave generator

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: . 2.4 kgs (GFG-8255A) SINE WAVE Sweep/Manual SWEEP OPERATION (for GFG-8217A/8219A/8255A only , Waveforms: Sine, Triangle, Square, Ramp, TTL and CMOS Output External Voltage Controlled Frequency (VCF , (-20dBx2) and Variable attenuator GFG-8216A Frequency Range: 0.3Hz ~ 3MHz Waveforms: Sine, Triangle , : 0.3Hz ~ 3MHz Waveforms: Sine, Triangle, Square, Ramp, TTL and CMOS Output External Voltage Controlled , LIN/LOG Sweep Mode GFG-8219A Frequency Range: 0.3Hz ~ 3MHz Waveforms: Sine, Triangle, Square -
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GFG-8217A GFG-8250A wave generator for 5mhz 8250A 6-digit counter 1MHz function generator GFG-8200A GFG-8215A 150MH FG-820AGD0DH
Abstract: ¼Hz~100MHz 1μHz~120MHz Sine, Square, Ramp, Pulse, White noise, Index Up, Index Down, Sinc, ECG wave Frequency Sine 1μHz~60MHz 1μHz~100MHz 1μHz~120MHz Square 1μHz~30MHz 1μHz~50MHz 1Î , -3540A 40μHz~40MHz Sine wave total distortion Pulse & Square wave Square wave duty cycle Frequency , impedance 50Ω Sine wave amplitude setting 1mVpp~10Vpp, when output frequency ≤10MHz range (50Î , or manual sweep Frequency Modulation (FM) (CHA) Carrier waveform Sine wave or square wave, with Twintex Electronics
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SQUARE WAVE GENERATOR TFG3500A TFG3600E TFG3500 TFG3200 TFG3500E TFG3200E
Abstract: SINE WAVE TRIANGLE WAVE SQUARE WAVE Distortion Linearity Error Asymmetry Rise or Fail Time , Accuracy Output Level Sine Wave Distortion AM, FM, Sweep, Trigger(int/ext), Gate or Burst (implement , 15MHz Programmable Function Generator NEW MAIN * Frequency Range 0.01Hz~15MHz * Maximum , Waveforms Sine, Square, Triangle, Ramp, Pulse, AM, FM, Sweep, Trigger and Gate or Burst * VCF for 100:1 , Accuracy Display Sine, Square, Triangle, Ramp, Pulse, AM, FM, Sweep, Trigger, Gate or Burst 10mHz -
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Frequency Generator 0.1Hz 10MHz Frequency Generator to 10MHz square 50hz 100hz generator 50Hz sine wave generator programmable Sine Wave Generator Frequency Generator 10kHz RS-232C 0000MH 5001MH 50000MH 011CH 100MH
Abstract: Function Generator * Frequency Range: 0.3Hz ~ 3MHz * Waveforms: Sine, Triangle, Square, Ramp , up The maximum resolution is 10nHz for 1Hz and 0.1Hz for 100MHz 1M // 150pF _ _ < 35mVrms (5Hz ~ 100MHz) ; < 45mVrms (100MHz ~ 150MHz) TRIANGLE WAVE SQUARE WAVE POWER SOURCE _ AC115V/230V + , attenuator * Frequency Range: 0.3Hz ~ 3MHz * Waveforms: Sine, Triangle, Square, Ramp, TTL and CMOS , Amplitude Impedance Attenuator DC Offset Duty Control Display Range Accuracy SINE WA VE -
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triangle wave application note Frequency Generator 1MHz cmos sine generator triangle generator triangle wave 50/60H GTL-101
Abstract: Function Generator * Frequency Range: 0.3Hz ~ 3MHz * Waveforms: Sine, Triangle, Square, Ramp , * Waveforms: Sine, Triangle, Square, Ramp, TTL and CMOS Output * External Voltage Controlled Frequency (VCF , SINE WA VE Distortion Flatness _ < 1%, 0.3Hz ~ 200kHz < 0.3dB, 0.3Hz ~ 300kHz, < 0.5dB, 300kHz ~ 3MHz TRIANGLE WA VE Linear SQUARE WAVE Symmetry Rise or Fall Time _ > _ > _ , warm up The maximum resolution is 100nHz for 1Hz and 1Hz for 100MHz 1MW // 150pF _ _ < 35mVrms -
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triangle sweep generator triangle waveform triangle wave source generator 400hz function generator GFG-8219
Abstract: Impedance. (Convert Clock input is capacitor cou- 2VP-P 2.5VP-P Sine Wave pled on board and terminated with , format for PScope compatibility) and disable Clock Duty Cycle Stabilizer for sine and square wave , -A LTC2220 12-Bit 170 Msps 1MHz < AIN < 100MHz 750A-B LTC2221 12-Bit 135Msps 1MHz < AIN < 100MHz 750A-C LTC2230 10-Bit 170 Msps 1MHz < AIN < 100MHz 750A-D LTC2231 10-Bit 135Msps 1MHz < AIN < 100MHz 750A-E LTC2220 12-Bit 170 Msps 100MHz Linear Technology
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LTC2220-1 LTC2230/1 LTC2220/1 DC750 DC750A 250MH
Abstract: ] Logic Input Voltages: OE, SHDN 2VP-P 2.5VP-P Sine Wave or Square wave QUICK START PROCEDURE , INPUT FREQUENCY 750A-A LTC2220 12-Bit 170 Msps 1MHz < AIN < 100MHz 750A-B LTC2221 12-Bit 135Msps 1MHz < AIN < 100MHz 750A-C LTC2230 10-Bit 170 Msps 1MHz < AIN < 100MHz 750A-D LTC2231 10-Bit 135Msps 1MHz < AIN < 100MHz 750A-E LTC2220 12-Bit 170 Msps 100MHz Linear Technology
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usb to lvds converter ETC1-1-13 500MH
Abstract: , kHz, MHz Data entry Units Wave for m Characteris tics Main Waveforms (Sine, Square) Amplitude , ‰¤ 5MHz) ≤ - 45dBc (frequency ≤ 10MHz) of Sine Wave* ≤ - 40dBc (frequency ≤ 20MHz) ≤ - 35dBc , (open circuit), 1ÂuVpp (50â"¦) Accuracy ± 1%+0.2mV (sine wave relative to 1kHz) Stability ±0.5 % , Data Sheet Programmable DDS Function Generator Series Models 4084, 4085, 4086 & 4087 , (arbitrary) waveforms. The generators produce high purity, low distortion sine waves, square waves up to 40 B&K Precision
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RS232 EN61010 EN55022 EN55024 EN61326 EN601000
Abstract: Synthesis (DDS) architecture Wide frequency range of 1uHz ~ 120MHz (model 4087, sine wave only) Clean and , ­Instruction Manual 2. SPECIFICATIONS 2.1 Function Generator Waveform Characteristics Main Waveforms: Sine , ) 300MSa/s (4087) Sine: Harmonic Distortion of Sine Wave: - 50dBc (frequency 5MHz) - 45dBc (frequency , , Positive DC, Negative DC, Stair wave, Coded Pulse, Full wave rectified, Half-wave rectified, Sine , Model 4086/4086AWG 1uHz ~ 80MHz (sine wave) 1uHz ~ 40MHz (square wave) Model 4087 1uHz ~ 120MHz (sine B&K Precision
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IEEE-488 GPIB B*K Precision Corporation bk-precision precision Sine 1Mhz Wave Generator pskey tds2000 4084AWG 4086AWG
Abstract: . 50 7.8 Adjusting Main Sine wave Harmonic Distortion , . 50 7.9.2 Adjusting Sine wave Harmonic Distortion , signal source can generate waveforms including sine wave, square wave, triangle wave, and ramp wave , . Example of the Setup of LIN Sweep To set the following conditions: Output function : Sine Wave. Output , set the following conditions: Main function: Sine Wave. Main Frequency: 10kHz. Main Output -
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GFG-3015 GFC-9701 Diode Gfg 33 gfc 9701 Function Generator Model GFC9701 GFG 77 82FG-30150MB
Abstract: applied to the IF filter each cycle, producing a sine wave with a frequency that is equal to the , 4GHz. The circuit in Figure 2 is designed to work with a sine wave driving the SRD. The SRD can be , better than sine wave drive. The minimum requirements is a forward bias cycle of at least 10nS and a , composed of a comb generator, a coupling network and a single balanced mixer. It is designed to be used in , 100MHz reference occur every 100MHz, the cutoff fre quency must be less than 100MHz. R3 may be replaced -
OCR Scan
MSPD-1012-E50 MSPD-1020-E50 MSPD1020E50 sampling phase detector SPD MSPD1012-E50 MSPD1020-E50 sampling mixer MTLXS011 MSPD-1000-E50 MSPD-1002-E50 MSPD-1020
Abstract: also provide a 500 match to the clock input cable. A sine wave clock signal is AC coupled to the , presented without time skew. CLOCK TO SP2001 AND DAC Fig. 4. Connection of high frequency sine wave , GEC PLESSEY [ s e m i c o n d u c t o r s PRELIMINARY INFORMATION 1 SP2001 100MHz , the DAC code required for an output sinewave at any frequency up to 100MHz. The SP2001 has a 16 bit , Outputs Maximum Output Frequency > 100MHz Useable with 5, 10, 15 or 25kHz Channel Spacing Useable with -
OCR Scan
ECL100K 144MH 30-100MH
Abstract: 100MHz 3.3VP-P sine wave or square wave to connector J1. Note that J1 has a 50Ω termination resistor , Clock Source Analog Input You must provide a low jitter 3.3VP-P sine or square wave to J1. The , using a 100MHz clock source, along with a sinusoidal generator at a frequency of 2kHz. The input , proper method is to pick an M/N frequency for the input sine wave frequency. N is the number of samples , input sine wave frequency. Another scenario that can yield poor results is if you do not have a signal Linear Technology
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DC1783A LTC2380/LTC2379/LTC2378/ LTC2377/LTC2376 LTC2380/LTC2379/LTC2378/LTC2377/LTC2376 LTC2379-18
Abstract: Figure 2, the Select pin (pin 10) is driven from a sine wave generator, since only crossings of the , Figure 7. Toggling the 4-input router: Red 1 input = 0V; Red 3 input = uncorrelated sine wave a , connected to 0V, and red 3 is connected to an uncorrelated sine wave. continued on page 20 Table 1 , Pixels at 100MHz by John Wright and Frank Cox Dense Process Yields One of the first products from , Figure 2. Select pin switches inputs at 100MHz. RED 1 = 0V, RED 2 = 1V, RL = 100, 10pF scope probe Linear Technology
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LT1675 LT1260 switching noise cancellation LT1675S noise margin ic 74hc04 74HC04 LT1203/LT1205 T1676 LT1776
Abstract: section. Test Equipment Required · Dual-output function generator capable of generating quadrature signals · Signal generator up to 100MHz · Dual-channel oscilloscope with a 100MHz minimum bandwidth · , frequency span to 1MHz/div. Configure the dual-output function generator to the following settings: For Channel 1: A 600kHz sine wave with a 1.2Vp-p amplitude. For Channel 2: A 600kHz sine wave with a 1.2Vp , generator to the I_IN BNC input on the EV kit. Similarly, connect a cable from Channel 2 of the Maxim Integrated Products
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MAX2450 MAX2451 MAX2452 VJ1206Y104MXX 1008CS-101XKBC P6201 MAX436 130MH 160MH
Abstract: generator to the following settings: For Channel 1: A 600kHz sine wave with a 1.2Vp-p amplitude. For Channel 2: A 600kHz sine wave with a 1.2Vp-p amplitude and 90 degrees offset from Channel 1. Connect a cable from Channel 1 of the dual-output function generator to the I_IN BNC input on the EV kit. Similarly , function generator capable of generating quadrature signals · Signal generator up to 100MHz · Dual-channel oscilloscope with a 100MHz minimum bandwidth · Low capacitance ( Maxim Integrated Products
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MAX2450/MAX2451/MAX2452 VJ1206A330JXA VJ1206103MXX 293D106X001B TAJB106010 MA4ST080CK-287
Abstract: its paces. Screen photo of 1 MHz square wave signal Screen photo of 50 and 100MHz sine wave with , 100MHz ( 0.8div.) Normal with level control: DC ­ 50MHz ( 0.5div.) ­ 100MHz ( 0.8div.) Indicator for , . triggering: CHI / CHII ( 0.8div.) Coupling: AC (10Hz ­ 100MHz) DC (0 ­ 100MHz) LF (0 ­ 1.5kHz , Hold Off; Alternate Triggering Triggering: DC-100MHz; Auto Peak to Peak; Active TV Sync. Separator , HM303 is the ideal instrument for waveform display in the DC to 100MHz frequency range. A key feature HAMEG
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HM303-6 D14-363GY ER151-11GY Hameg HM303-6 oscilloscope hameg D14-363 hameg
Abstract: THURLBY THANDAR INSTRUMENTS TGA1230 Arbitrary & Universal Waveform Generator TGA1230 30 M Hz SYNTHESISED ARBITARY WAVEFORM GENERATOR MAN/ SYNC 7 8 9 ENTER FREQ AMPL HOLD 4 5 6 EXP OFFSET MODE RECALL 1 2 3 CE 0 . +/ _ WAVE SELECT STD ARB WAVE EDIT CREATE MODIFY ESCAPE VCA/SUM IN SEQUENCE SWEEP FILTER TRIG IN SYNC OUT , THANDAR INS TRUMENTS _ 10V MAX + 50 12 bit, 30MS/s arbitrary waveform generator 64K word Thurlby Thandar Instruments
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IEEE488 EN61010-1 EN50081-1 EN50082-1 thurlby thandar 9pin rs232 D-connector squarewave generator 30MS/ RS-232 IEEE-488
Abstract: signal source to J4. Connect a low jitter 99.2MHz 3.3VP-P sine wave or square wave to connector J1 , provide a low jitter 3.3VP-P sine or square wave to J1. The clock input is AC-coupled so the DC level of , using a 100MHz clock source, along with a sinusoidal generator at a frequency of 2.0kHz. The input , the input sine wave frequency. N is the number of samples in the FFT. M is a prime number between one and N/2. Multiply M/N by the sample rate to obtain the input sine wave frequency. Another Linear Technology
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LTC6202 DC1813A LTC2370/LTC2369/LTC2368/ LTC2367/LTC2364 2370/LTC2369/LTC2368/LTC2367/LTC2364 LTC2369-18
Abstract: . (Encode Input is capacitor coupled on 2VP-P 2.5VP-P Sine Wave board and terminated with 50.) or Square , INPUT FREQUENCY 751A-A LTC2222 12-Bit 105 Msps 1MHz < AIN < 100MHz 751A-B LTC2223 12-Bit 80Msps 1MHz < AIN < 100MHz 751A-C LTC2232 10-Bit 105 Msps 1MHz < AIN < 100MHz 751A-D LTC2233 10-Bit 80Msps 1MHz < AIN < 100MHz 751A-E LTC2222 12-Bit 105 Msps 100MHz Linear Technology
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LTC2224 LTC2234 DC751 D751ad 751AD 751A-B 751A 751AB 10/12-BIT LTC2232/3/4 LTC2222/3/4
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