NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: input voltage, thus the PWM can easily track a full wave rectified sine wave of input voltage at 50Hz , For a 50Hz rectified sine wave a 1uF capacitor connected to Vdd is sufficient to guarantee stable , The duty cycle of the oscillator output and thus the on time of the MOSFET is determined by a , voltage, thus avoiding core saturation of the magnetic elements. The oscillator is initially operating at , and the oscillator frequency is increased in small steps on oscillator cycles until the PWM output ... | Original |
5 pages, |
1uF 400V capacitor 1N4007 VN2460 VN2460N8 400hz sine oscillator 100uF 450v capacitor electrolytic HV9904 50hz to 60hz converter circuit diagram voltage regulator mosfet 1,2 400V voltage regulator PWM AC 50HZ 400V linear regulator rectified constant power led driver HV9904 abstract |
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| Abstract: input voltage, thus the PWM can easily track a full wave rectified sine wave of input voltage at 50Hz , For a 50Hz rectified sine wave a 1uF capacitor connected to Vdd is sufficient to guarantee stable , The duty cycle of the oscillator output and thus the on time of the MOSFET is determined by a , voltage, thus avoiding core saturation of the magnetic elements. The oscillator is initially operating at , and the oscillator frequency is increased in small steps on oscillator cycles until the PWM output ... | Original |
5 pages, |
1uF 400V capacitor Constant Current Regulator Circuits currrent to voltage converter HV9904 HV9904LG HV9904P HV9904X IRFBC30AS 100uF 450v capacitor electrolytic MURS120T3 power supply 400v circuit diagram 400hz sine oscillator HV9904 abstract |
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| Abstract: Oscillator (VCO) + Vc CH O OUTPUT 2 Low Frequency Sine Wave Oscillator 0.02/1 F f„ = lHz Triangle Wave Oscillator INTEGRATOR CI THRESHOLD O-1'^ DETECTOR -AW Full Wave Rectifier and Average Filter 4.7,«F \C , 10pF INPUT SAMPLE 0.5Hz Square Wave Oscillator R,.=100kQ -wvw- 3.3kQ -WV- Cf^zapiv-T- -WWV- , Output Rumble frequency FLAT 30Hz 50Hz 80Hz Scratch frequency 5kHz 10kHz 15kHz FLAT 4-14 New ... | OCR Scan |
4 pages, |
SQUARE WAVE GENERATOR riaa band pass filter 10khz 50Hz sine wave filter circuit riaa preamplifier circuit diagram 50Hz sine wave generator riaa filter 50hz sine oscillator datasheet abstract |
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| Abstract: Input : 50Hz system 1.0Vp-p video signal 1.95 2.05 2.15 Vp-p AGC characteristics 1 ICCR VEE1 AGC1 Input : 50Hz system 2.0Vp-p video signal 2.05 2.15 2.25 Vp-p AGC characteristics 2 AGC2 Input : 50Hz system 0.5Vp-p video signal 1.90 2.00 2.10 Vp-p AGC characteristics 3 AGC3 Input : 50Hz system wilth only SYNC increased 6dB 555 615 695 mVp-p AGC characteristics 4 AGC4 EE output level 1 Input : 50Hz system wilth only SYNC decreased 6dB 370 410 ... | Original |
10 pages, |
k205 DIP48S 50Hz sine wave filter circuit 50Hz sine wave generator 50hz sine oscillator sine wave generator using ic 555 ENN5119 LA7449 7449M ENN5119 abstract |
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| Abstract: Input : 50Hz system 1.0Vp-p video signal 1.95 2.05 2.15 Vp-p AGC characteristics 1 ICCR VEE1 AGC1 Input : 50Hz system 2.0Vp-p video signal 2.05 2.15 2.25 Vp-p AGC characteristics 2 AGC2 Input : 50Hz system 0.5Vp-p video signal 1.90 2.00 2.10 Vp-p AGC characteristics 3 AGC3 Input : 50Hz system wilth only SYNC increased 6dB 555 615 695 mVp-p AGC characteristics 4 AGC4 Input : 50Hz system wilth only SYNC decreased 6dB 370 410 450 mVp-p Sync ... | Original |
10 pages, |
VOP-25 DIP48S LA7411 LA7449 LA7449M LC89970 QIP48E 50Hz sine wave generator 50hz sine oscillator sine wave generator using ic 555 ENN5119 7449M ENN5119 abstract |
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| Abstract: June 1996 Application Note 42025 Generating Fixed Frequency Sine Waves with ML2035 ML2035 Jon Klein The ML2035 ML2035 Programmable Sine Wave Generator is a convenient solution for generating accurate sine waves. Often an accurate fixed sine wave reference is required in applications such as , show several alternate methods for programming the ML2035 ML2035 for 50 or 60Hz sine wave output using , is used as an oscillator and timer. Q5 stays high for 16 clock cycles. During the first 8, the ... | Original |
3 pages, |
Application Note 14 programmable Sine Wave Generator binary to abcd code 74hc165 datasheet 74hc165 4.194304 crystal oscillator ML2035 hc4060 74HC4060 74HC4060 application note 50Hz sine wave generator 50hz sine oscillator ML2035 abstract |
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| Abstract: the principal cause of electromagnetic interference (EMI) is the system clock oscillator. Traditional , oscillator. Compared with conventional clock oscillators, Spread Spectrum (Dithered) Oscillators can reduce EMI by as much as 15dB. The part is a 'drop-in' replacement for a standard clock oscillator hence , the kHz region, makes the process transparent to the oscillator frequency. There is a choice of , conventional clock oscillator, in a Spread Spectrum Clock Oscillator the mode energy is spread over a wider ... | Original |
2 pages, |
oscillator 50mhz smd 213B 208E 100MHz oscillator spread spectrum data modem EQHM57 50hz sine oscillator 3EQHM57 3EQHM57 abstract |
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| Abstract: or 50Hz Line Regulated Output Amplitude, 45-93Vrms Overload Protection with Adaptive Output , 6 11 PAD_Out XTAL2 7 10 BRC GND 1 to 3 Watt Low Cost Sine Wave Ring Generators 3 to 6 Watt advanced Sine Wave Ring Generators Large Variety of Customized Sine Wave Ring , that switches the primary of a flyback transformer. This produces a rectified half sine wave on the , , which converts the rectified half sine wave to full sine wave. In order to maintain the ring ... | Original |
14 pages, |
ring oscillator design Sine Wave Generator at transistor level BAS21 cmos sine generator lm339 square wave MOCD217 40 watt telephone ring generator PCR-SIN01 SB3040 sine wave pwm circuit 50hz sine generator programmable Sine Wave Generator PD5019 PD5019 PD5019 abstract |
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| Abstract: Ringing Frequencies; 16.7/20/25 or 50Hz Line Regulated Output Amplitude, 45-93Vrms Overload Protection , 8 9 1 to 3 Watt Low Cost Sine Wave Ring Generators 3 to 6 Watt advanced Sine Wave Ring Generators Large Variety of Customized Sine Wave Ring Generators Ring Generator for PBX, PABX, DCL, CTI and , that switches the primary of a flyback transformer. This produces a rectified half sine wave on the , , which converts the rectified half sine wave to full sine wave. In order to maintain the ring ... | Original |
14 pages, |
50hz sine generator using crystal 582-100A BAS21 LM339 MOCD217 pabx ring generator PD5019 PCR-SIN03B PCR-SIN06- PowerDsine PCRSIN01 50Hz sine wave generator RING GENERATOR PD5036 PD5036 PD5036 abstract |
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| Abstract: flag.bit.b_50Hz is set to "1". If the results are within the range 55 Hz to 65 Hz, then the frequency is , Commercial frequency conversion circuit (sine wave to square wave) Note: Voltage level = VCC Commercial , Symbol Type Size Content flag.bit.b_50Hz flag.bit.b_60Hz unsigned char :1 unsigned char , Frequency Determination Process Hz_judge ok_cnt = 0 ; Clears determination count flag.bit.b_50Hz = 0 ; Clears 50Hz determination flag flag.bit.b_60Hz = 0 ; Clears 60Hz determination flag 0 ir_txic ... | Original |
12 pages, |
CM17 50hz sine oscillator R8C/10 R8C/11 R8C/12 R8C/13 R8C/10 abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| -width-modulated when the power is being delivered back to the source. The UCC3750 UCC3750 UCC3750 UCC3750 has an onboard sine wave reference with programmable frequencies of 20Hz, 25Hz and 50Hz. The reference is derived from a high sinusoidal output at 20Hz, 25Hz or 50Hz. The ring generator can also be used at other frequencies by supplying externally generated sine-waves to the chip or by clocking the crystal input at a fixed multiple Systems (20Hz, 25Hz and 50Hz) Programmable Output Amplitude and DC Offset AC Current Limiting www.datasheetarchive.com/files/texas-instruments/data/wwwti~1.com/sc/docs/products/analog/ucc375~1.htm |
Texas Instruments | 28/01/2000 | 14.81 Kb | HTM | ucc375~1.htm |
| -width-modulated when the power is being delivered back to the source. The UCC3750 UCC3750 UCC3750 UCC3750 has an onboard sine wave reference with programmable frequencies of 20Hz, 25Hz and 50Hz. The reference is derived from a high sinusoidal output at 20Hz, 25Hz or 50Hz. The ring generator can also be used at other frequencies by supplying externally generated sine-waves to the chip or by clocking the crystal input at a fixed multiple Systems (20Hz, 25Hz and 50Hz) Programmable Output Amplitude and DC Offset AC Current Limiting www.datasheetarchive.com/files/texas-instruments/data/www.ti.com/sc/docs/products/analog/ucc2750.html |
Texas Instruments | 29/01/2000 | 14.6 Kb | HTML | ucc2750.html |
| -width-modulated when the power is being delivered back to the source. The UCC3750 UCC3750 UCC3750 UCC3750 has an onboard sine wave reference with programmable frequencies of 20Hz, 25Hz and 50Hz. The reference is derived from a high sinusoidal output at 20Hz, 25Hz or 50Hz. The ring generator can also be used at other frequencies by supplying externally generated sine-waves to the chip or by clocking the crystal input at a fixed multiple Systems (20Hz, 25Hz and 50Hz) Programmable Output Amplitude and DC Offset AC Current Limiting www.datasheetarchive.com/files/texas-instruments/data/www.ti.com/sc/docs/products/analog/ucc3750.html |
Texas Instruments | 29/01/2000 | 14.81 Kb | HTML | ucc3750.html |
| -width-modulated when the power is being delivered back to the source. The UCC3750 UCC3750 UCC3750 UCC3750 has an onboard sine wave reference with programmable frequencies of 20Hz, 25Hz and 50Hz. The reference is derived from a high sinusoidal output at 20Hz, 25Hz or 50Hz. The ring generator can also be used at other frequencies by supplying externally generated sine-waves to the chip or by clocking the crystal input at a fixed multiple Systems (20Hz, 25Hz and 50Hz) Programmable Output Amplitude and DC Offset AC Current Limiting www.datasheetarchive.com/files/texas-instruments/data/wwwti~1.com/sc/docs/products/analog/ucc275~1.htm |
Texas Instruments | 28/01/2000 | 14.6 Kb | HTM | ucc275~1.htm |
| = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB Note 1 : This 1) V IN = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB V IN0 2 Digital Crystal oscillator output 14 XTAL1 Digital Crystal oscillator input 15 CHS Digital crystal oscillator ; their precision is the same as the crystal one's (100 ppm). The modulated signal receives a local oscillator synthesized by the FSK modulator block. Finally an intermediate frequency www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1146-v1.htm |
STMicroelectronics | 25/05/2000 | 19.57 Kb | HTM | 1146-v1.htm |
| rejection ratio on ATO (see Note 1) V IN = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB Note 1 : This supply rejection ratio on RxFO (see Note 1) V IN = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB V 13 XTAL2 Digital Crystal oscillator output 14 XTAL1 Digital Crystal oscillator input 15 CHS Digital frequencies are synthesized from a 11.0592MHz crystal oscillator ; their precision is the same as the crystal down-converted by a mixer which receives a local oscillator synthesized by the FSK modulator block www.datasheetarchive.com/files/stmicroelectronics/books/ascii/docs/1146.htm |
STMicroelectronics | 25/05/2000 | 20.73 Kb | HTM | 1146.htm |
| Note 1) V IN = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB Note 1 : This characteristic is rejection ratio on RxFO (see Note 1) V IN = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB V IN0 V IN1 Digital Crystal oscillator output 14 XTAL1 Digital Crystal oscillator input 15 CHS Digital Channel synthesized from a 11.0592MHz crystal oscillator ; their precision is the same as the crystal one's (100 ppm which receives a local oscillator synthesized by the FSK modulator block. Finally an intermediate www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1146.htm |
STMicroelectronics | 02/04/1999 | 17.79 Kb | HTM | 1146.htm |
| Note 1) V IN = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB Note 1 : This characteristic is rejection ratio on RxFO (see Note 1) V IN = 200mV PP , f IN = 50Hz on V DD or V SS 35 10 dB dB V IN0 V IN1 Digital Crystal oscillator output 14 XTAL1 Digital Crystal oscillator input 15 CHS Digital Channel synthesized from a 11.0592MHz crystal oscillator ; their precision is the same as the crystal one's (100 ppm which receives a local oscillator synthesized by the FSK modulator block. Finally an intermediate www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1146-v2.htm |
STMicroelectronics | 14/06/1999 | 17.75 Kb | HTM | 1146-v2.htm |
| = | F signal - (N F sample) | Fs = 2000 Hz dB 650 Hz (50 Hz) 1950 Hz (750 Hz) 3250 Hz (550 Hz) 4550 Hz signal - (N F sample) | Fs = 2000 Hz f (Hz) dB (650 Hz) (1950 Hz) 50 Hz (3250 Hz) 750 Hz (4550 Hz) 550 -Playcenter Sampling-Sine worksheet Q,xf1,xf2,xf3 Everything normalized to F/Fc Nyquist sample rate 2x highest - Rectangular Continuous Sine Wave Samples Time Time DTFT of a Finite-Length Sinusoidal Sequence FFT Results Even though the samples are of a pure sine wave, the DFT produces spectral values 'riding' on a curve www.datasheetarchive.com/download/24047041-390968ZC/dsp.ppt |
Microchip | 03/02/2001 | 824.5 Kb | PPT | dsp.ppt |
| = | F signal - (N F sample) | Fs = 2000 Hz dB 650 Hz (50 Hz) 1950 Hz (750 Hz) 3250 Hz (550 Hz) 4550 Hz signal - (N F sample) | Fs = 2000 Hz f (Hz) dB (650 Hz) (1950 Hz) 50 Hz (3250 Hz) 750 Hz (4550 Hz) 550 -Playcenter Sampling-Sine worksheet Q,xf1,xf2,xf3 Everything normalized to F/Fc Nyquist sample rate 2x highest - Rectangular Continuous Sine Wave Samples Time Time DTFT of a Finite-Length Sinusoidal Sequence FFT Results Even though the samples are of a pure sine wave, the DFT produces spectral values 'riding' on a curve www.datasheetarchive.com/download/65019059-390948ZC/dspfiles.zip (DSP.ppt) |
Microchip | 28/02/2001 | 1005.52 Kb | ZIP | dspfiles.zip |