NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: from 10Hz ~ 1MHz * 0.02% Low Sine wave Distortion (GAG-810 GAG-810 Only) * 6 Steps Output Attenuator * EXT SYNC Function SINE WAVE CHARACTERISTIC MAIN OUTPUT Frequency Range Accuracy Level Level , RF Generator / Audio Generator * Frequency Range from 100kHz ~ 150MHz (up ~ 450MHz on Harmonics , ) 100Hz ~ 100kHz 0.05% or less (GAG-809 GAG-809 0.3%) (x 10 range for 100Hz, x 1k range for 100kHz) 50Hz ~ 200kHz 0.3% or less 20Hz ~ 500kHz 0.5% or less 10Hz ~ 1MHz 1.5% or less SQUARE WAVE Frequency ... | Original |
1 pages, |
Sine Wave Generator 1MHz function generator sine wave 50Hz generator GAG-810 50hz sine generator Frequency Generator 1KHZ Frequency Generator 1MHz 50hz 100hz generator 50Hz sine wave generator GAG-810 abstract |
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| Abstract: Terminal 1. 2. This value applies for 50-Hz full sine wave operation with resistive load. Above 70°C , 50-Hz full sine wave when the device is operating at (or below) the rated value of on-state current. , , gate control may be lost. 4. This value applies for one 50-Hz half sine wave when the device is , applies for 50-Hz full sine wave operation with resistive load. Above 70°C derate linearly to 110°C case temperature at the rate of 100 mW/°C. ' 3. This value applies for one 50-Hz full sine wave when the device Is ... | OCR Scan |
3 pages, |
TIC216S TIC216 TIC216A TIC216B TIC216C TIC216D TIC216E TIC216N 50hz sine generator TIC216M sine wave 50Hz generator 50Hz sine wave generator TIC216A abstract |
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| Abstract: resistance between the gate and Main Terminal 1. 2. This value applies for 50-Hz full sine wave operation , Figure 7. 3. This value applies for one 50-Hz full sine wave when the device Is operating at (or below , resistance between the gate and Main Terminal 1. 2. This value applies for 50-Hz full sine wave operation , Figure 7. 3. This value applies for one 50-Hz full sine wave when the device is operating at (or below , sine wave when the device is operating at lor below) the rated value of on-state current. Surge may be ... | OCR Scan |
6 pages, |
TIC225S RL10s 7 sine wave 50Hz generator TIC225B TIC225C TIC225E TIC225N TIC225D TIC225M TIC225A 50Hz sine wave generator tic2250 S361726 S361726 abstract |
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| Abstract: LOW COST 30 Watt Sine Wave Telephone Ring Generator 40REN 40REN@75Vrms to 100REN 100REN@45Vrms PDR-SIN30V48F25 PDR-SIN30V48F25 PDR-SIN30V48F25 PDR-SIN30V48F25 LOW COST 30 Watt Sine Wave Telephone Ring Generator FEATURES ! ! ! ! ! , Loads that exceed 30VA will momentarily clamp the output sine wave, and trigger the Ring Generator , equipment. PDR-SIN30V48F25 PDR-SIN30V48F25 PDR-SIN30V48F25 PDR-SIN30V48F25 LOW COST 30 Watt Sine Wave Telephone Ring Generator , PDR-SIN30V48F25 PDR-SIN30V48F25 LOW COST 30 Watt Sine Wave Telephone Ring Generator MECHANICAL DETAILS A B 11 PL. 6 +Vin ... | Original |
5 pages, |
FUSE T2A 250v sine wave 50Hz generator PowerDsine PDR-SIN30V48F25 50hz sine generator 50hz sine oscillator FUSE T2A 250V overload protection 40 watt telephone ring generator telephone ring generator circuit 50Hz sine wave generator 40REN 100REN 40REN abstract |
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| Abstract: between the gate and Main Terminal 1. 2. This value applies for 50-Hz full sine wave operation with , value applies for one 50-Hz full sine wave when the device is operating at (or below) the rated value of , During the surge, gate control may be iost. 4. This value applies for one 50-Hz half sine wave when the , This value applies for 50-Hz full sine wave operation with resistive load. Above 85°C derate linearly , be lost. 4. This value applies for one 50-Hz half sine wave when the device is operating at (or ... | OCR Scan |
6 pages, |
TIC206 j526 TIC216E TIC206S TIC206C tic206n TIC206E TIC206B TIC206A TIC206D texas TIC206D TIC206M TIC206N TIC206A abstract |
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| Abstract: 15 Watt Sine Wave Telephone Ring Generator 15REN 15REN@86Vrms to 40REN 40REN@45Vrms PCR-SIN15V48F00 PCR-SIN15V48F00 PCR-SIN15V48F00 PCR-SIN15V48F00 15REN 15REN@86Vrms to 40REN 40REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR TYPICAL APPLICATION 1 , output sine wave, and trigger the ring generator overload protection. This function allows the Ring , 15REN 15REN@86Vrms to 40REN 40REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR Zero Crossing Synchronization Output The SYNC , 40REN 40REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR TYPICAL APPLICATION 3 Output AC is superimposed on DC bias ... | Original |
6 pages, |
RING GENERATOR 40 watt telephone ring generator pabx ring generator for 5v regulated power supply sine wave 50Hz generator PowerDsine ringing cadence generator 15REN QQ-A-250 Sine Wave Generator at transistor level 50hz sine oscillator 50Hz sine wave generator 15REN abstract |
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| Abstract: 15 Watt Sine Wave Telephone Ring Generator 15REN 15REN@86Vrms to 40REN 40REN@45Vrms PCR-SIN15V48F00 PCR-SIN15V48F00 PCR-SIN15V48F00 PCR-SIN15V48F00 15REN 15REN@86Vrms to 40REN 40REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR TYPICAL APPLICATION 1 , output sine wave, and trigger the ring generator overload protection. This function allows the Ring , 15REN 15REN@86Vrms to 40REN 40REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR Zero Crossing Synchronization Output The SYNC , 40REN 40REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR TYPICAL APPLICATION 3 Output AC is superimposed on DC bias ... | Original |
6 pages, |
PowerDsine 50Hz sine wave generator 40 watt telephone ring generator 50hz sine generator Sine Wave Generator at transistor level PCR-SIN15V48F00 15REN 40REN 15REN abstract |
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| Abstract: Notes 1 Sine wave reference: The SWG10 SWG10 can amplify any sinusoidal reference signal with a frequency , 400mA, 150ms maximum. 8 System design should ensure that 'Sine Wave Reference' pin 2 is set such that Vout never exceeds 80V. 1 Remote ON/OFF 2 Sine Wave Reference 3 + Input, + Output Return 4 - , TECHNOLO I |G I E S SWGIO SERIES DC/AC single output ring generator • Provides 10VA of ringer , mount system Defined to provide modular and on-card ring generator facilities to teiecoms systems, the ... | OCR Scan |
2 pages, |
SWG10 sine wave 50Hz SIGNAL REFERENCE pabx ring generator EN55022-A capacitor 100V 50Hz sine wave generator 50hz sine generator 10VA ceramic fuse 500mA 250v LF BTR2511 EN55022 BTR2511 abstract |
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| Abstract: is a modular sine wave ring generator (PCR-SIN01A PCR-SIN01A Series or the PCR-SIN06 PCR-SIN06 Series). INTERNAL BLOCK , 10nF/50V Typical Application - 3 to 6REN Sine Wave Ring Generator PowerDsine Ltd. PowerDsine , , use of a modular sine wave ring generator is recommended (PCR-SIN06 PCR-SIN06 Series). To receive PowerDsine , 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 ... | 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: 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 , is a modular sine wave ring generator (PCR-SIN01A PCR-SIN01A Series, PCR-SIN03B PCR-SIN03B Series, or the PCR-SIN06 PCR-SIN06 Series , 12 11 10 9 C5 10pF Typical Application 2 REN Sine Wave Ring Generator PD5036 PD5036 US , Sine Wave Ring Generator PowerDsine Ltd. Tel: +972-3-934-7663 · Fax: +972-3-934-7669 · Email ... | 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 | Saved from | Date Saved | File Size | Type | Download |
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| wave and the surge generator diagram. Table 1 gives on inexhaustive list of the standards . Table 1 : Lightning surge standards 1/4 Figure 2 : 10/700 m s wave generator Figure 3 : 1.2/50 m s wave generator Figure 6 : 1/1000 m s wave generator Figure 7 : 10/160 m s wave generator Figure 5 : 10/560 m s wave generator Figure 4 : 0.5/700 m s wave generator The following figures give the generator 3. CROSSING OR PROXIMITY WITH MAINS AC LINES : Crossing or proximity is simulated by a sine www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3595.htm |
STMicroelectronics | 20/10/2000 | 6.68 Kb | HTM | 3595.htm |
| : Crossing or proximity is simulated by a sine wave generator (50 or 60 Hz) connected through a series , which can be summarized by the times t1 and t2, the peak voltage of the wave and the surge generator /4 Figure 2 : 10/700 m s wave generator Figure 3 : 1.2/50 m s wave generator Figure 6 : 1/1000 m s wave generator Figure 7 : 10/160 m s wave generator Figure 5 : 10/560 m s wave generator Figure 4 : 0.5/700 m s wave generator The following figures give the schematics of the surge generators mainly used www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3595-v2.htm |
STMicroelectronics | 14/06/1999 | 4.6 Kb | HTM | 3595-v2.htm |
| LINES : Crossing or proximity is simulated by a sine wave generator (50 or 60 Hz) connected through voltage of the wave and the surge generator diagram. Table 1 gives on inexhaustive list of the standards . Table 1 : Lightning surge standards 1/4 Figure 2 : 10/700 m s wave generator Figure 3 : 1.2/50 m s wave generator Figure 6 : 1/1000 m s wave generator Figure 7 : 10/160 m s wave generator Figure 5 : 10/560 m s wave generator Figure 4 : 0.5/700 m s wave www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3595-v3.htm |
STMicroelectronics | 25/05/2000 | 6.47 Kb | HTM | 3595-v3.htm |
| : Crossing or proximity is simulated by a sine wave generator (50 or 60 Hz) connected through a series , which can be summarized by the times t1 and t2, the peak voltage of the wave and the surge generator /4 Figure 2 : 10/700 m s wave generator Figure 3 : 1.2/50 m s wave generator Figure 6 : 1/1000 m s wave generator Figure 7 : 10/160 m s wave generator Figure 5 : 10/560 m s wave generator Figure 4 : 0.5/700 m s wave generator The following figures give the schematics of the surge generators mainly used www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/3595-v1.htm |
STMicroelectronics | 02/04/1999 | 4.64 Kb | HTM | 3595-v1.htm |
| 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 -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 Topology Onboard Sine Wave Reference with Low THD Selectable Ringing Frequency for Different Phone 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 |
| 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 -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 Topology Onboard Sine Wave Reference with Low THD Selectable Ringing Frequency for Different Phone 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 |
| 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 -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 Topology Onboard Sine Wave Reference with Low THD Selectable Ringing Frequency for Different Phone 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 |
| 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 -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 Topology Onboard Sine Wave Reference with Low THD Selectable Ringing Frequency for Different Phone 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 |
| ;* TITLE "PWM based sine wave generator" LIST P=16C620 16C620 16C620 16C620, R=DEC INCLUDE _CONFIG _BODEN Sec) ;* ; Description: ; Outputs a 60 Hz synthizied sine wave (32 step) via a general ; purpose I/O pin (RB1) into ;* ; Look-up Table for Sine Wave ; This 32 entry table was generated to produce a 0.1*Vdd to ; 0.9*Vdd frequencies can easily ; generated (example: FSINE equ .50 for a 50 Hz sinewave www.datasheetarchive.com/download/75572359-392866ZC/00655.zip (sine.asm) |
Microchip | 05/03/1998 | 6.38 Kb | ZIP | 00655.zip |
| ;* TITLE "PWM based sine wave generator" LIST P=16C620 16C620 16C620 16C620, R=DEC INCLUDE _CONFIG _BODEN Sec) ;* ; Description: ; Outputs a 60 Hz synthizied sine wave (32 step) via a general ; purpose I/O pin (RB1) into ;* ; Look-up Table for Sine Wave ; This 32 entry table was generated to produce a 0.1*Vdd to ; 0.9*Vdd frequencies can easily ; generated (example: FSINE equ .50 for a 50 Hz sinewave www.datasheetarchive.com/download/35399342-390864ZC/00655.zip (sine.asm) |
Microchip | 23/04/1998 | 6.38 Kb | ZIP | 00655.zip |