NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: ground. The transformer has a center tap on the primary that is connected to the DC supply. The , voltage of 800V with a 24V supply, first use Table 1 to locate the target transformer turns ratio for a , center tap to one end 200 m Secondary DCR 500 Primary Leakage 12 uH Secondary , , transformer Dec 10, 2004 APPLICATION NOTE 3375 DS3984/DS3988 DS3984/DS3988 Transformer Turns Ratio Selection , variable in designing an optimal system with the DS3984 DS3984 and DS3988 DS3988 is the selection of the transformer ... | Original |
4 pages, |
12v output center tap transformer AC Transformer 12V turns ratio of 15 w transformer CCFL APPLICATION NOTES Transformer 19v APP3375 Transformer 9v 23v transformer ccfl transformer Transformer 16v transformer centre tap 18v transformer DS3984/DS3988 DS3984/DS3988 abstract |
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| Abstract: the transformer current can be approximated as: For a Full-Wave Center Tap 1.2 x 0.35 = 0.42 A or , a Full-Wave center tap application Secondary rating: 28 VCT @ 0.42 A Approx. transformer power , be seen that the transformer secondary voltage can be specified as 28VCT 28VCT (center tap). For a bridge , Transformer Secondary Current VREG REG C + VOUT DC Full-Wave center tap 1. VREG is , Example: AHR40309FMQT-5555 AHR40309FMQT-5555. This part is a 40V Class II transformer with a 120V Primary and 24V ... | Original |
25 pages, |
24v to 230v inverters circuit AH30036 AHR40318 transformer 500mA 12v 12v to 230v inverters circuit transformer 230V to 12V 500mA 230v to 12v step down transformer 230v to 18v step down transformer 230v to 12v center tap transformer 12v and 500ma transformer 12v to 230v inverters circuits 230v ac 5v adapter circuit schematic datasheet abstract |
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| Abstract: the device. To achieve the necessary primary-to-secondary winding ratio, the center tap of the TX1099 TX1099 , nominal 1.5V pulse into the primary winding of the transformer. This produces a 2.4V pulse at the cable. , requires either two transformers in series or a single transformer with a split secondary winding. This application note focuses on the single transformer solution, which is cost effective and requires less space. Circuit Description This interface in Figure 1 is built using the Pulse Engineering TX1099 TX1099 transformer ... | Original |
3 pages, |
AN384 DS21348 DS2155 DS2156 introduction of pulse transformer RJ-48 Twisted Pair split termination e1 cable TX1099 RJ48 pin out datasheet abstract |
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| Abstract: primary-to-secondary winding ratio, the center tap of the TX1099 TX1099 primary side is connected to one of the inputs. In , connections requires either two transformers in series or a single transformer with a split secondary winding. This application note focuses on the single transformer solution, which is cost effective and , Engineering TX1099 TX1099 transformer. This transformer is a dual surface-mount transformer that contains a split secondary winding. The transformer is a 1CT:1:0.8 and can be thought of as having two sections for the ... | Original |
3 pages, |
pulse transformer DS21348 DS2155 Siemens 3-Pin to Bantam Plug Cable DS2156 RJ-48 introduction of pulse transformer BNC Coaxial Connectors RJ48 pin out transmission lines Twisted Pair center tap pulse transformer TX1099 Twisted Pair split termination datasheet abstract |
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| Abstract: LX pin while producing the -24V output voltage. The voltage at the center tap of the transformer is , of the output voltage over a -6V to -24V range. _Features ♦ Fully Assembled Surface-Mount EV Kit ♦ -6V to -24V Adjustable Output ♦ 80% Conversion Efficiency ♦ 40mA Output Current _Ordering , 595D336X0035R7 595D336X0035R7 D1 1 1N5819 1N5819 diode, 40V NIEC EC10QS04 EC10QS04 L1 1 50nH SMT transformer Coiltronics CTX50-1 CTX50-1 R1 1 10kQ 5% , equation and solving for liN. Assuming a 5V input and a 24V, 40mA load, the input current can then be ... | OCR Scan |
3 pages, |
MAX759CPD MAX759 EC10QS04 1N5819 MAX759LCDKIT-SO "LCD Power Supply" MAX759 abstract |
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| Abstract: : The zero-detect input senses when the transformer's primary center tap voltage falls to zero to , 10k) should be connected between ZD and the primary center tap to limit input current at turn off. , Disable Current · 4.5V to 24V Operation · Open Lamp Detection Circuitry Soft start and open , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . +24V ZD Input Current High Impedance , . . . . . . . . . . . . . . . . . . . . +24V Power Dissipation at TA = 25°C . . . . . . . . . . . . ... | Original |
6 pages, |
UNITRODE fluorescent neon lamp 220 volt PLCC-20 RESONANT CONTROLLER SOIC-16 SSOP-16 UC1872 UC2872 push-pull zvs uc3872 24v center tap transformer 220 24v ballast UC3872 UC1872 abstract |
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| Abstract: ZD: The zero-detect input senses when the transformer's primary center tap voltage falls to zero to , ) should be connected between ZD and the primary center tap to limit input current at turn off. ENBL , smooth duty cycle control to 100%. · 1uA Disable Current · 4.5V to 24V Operation · Open Lamp , . . . +24V ZD Input Current High Impedance Source . . . . . . . . . . . . . . . . . . . . . . +10mA ZD Input Voltage Low Impedance Source . . . . . . . . . . . . . . . . . . . . . . . . +24V ... | Original |
7 pages, |
UNITRODE fluorescent uc3872 UC2872 UC1872 SSOP-16 SOIC-16 push pull zvs driver PLCC-20 UC3872 UC1872 abstract |
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| Abstract: through 240VAC 240VAC -510 through -620: Center Tap Sec Output Voltage 10VAC 10VAC through 120VAC 120VAC or 2) GT-SUC , ) QUICK TERM. DUAL PRI DUAL SEC PCB MOUNT CENTER TAP MODEL NUMBER OUTPUT (VAC , N.A. SINGLE SEC QUICK TERM. CENTER TAP PCB MOUNT PCB MOUNT MODEL NUMBER OUTPUT , QUICK TERM. SINGLE PRI N.A. SINGLE PRI EURO. CENTER TAP PCB MOUNT MODEL NUMBER OUTPUT , и и и и и и и и и и QUICK TERM. CENTER TAP SINGLE SEC PCB MOUNT PCB MOUNT (LOW ... | Original |
7 pages, |
16v center tap transformer 230vac 24VAC CENTER TAP transformer 24v center tap transformer 220 24VCT GT-EU06-2-010 GT-EU06-2-020 12-0-12 transformer 5V 12-0-12 center tap transformer 240v transformer 220 to 12-0-12 step down 12012 transformer 12012 transformer 12.6v step down transformer 180VA 180VA abstract |
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| Abstract: transformer. S/T Line Input (negative) Inputs S/T interface data through a pulse transformer. S/T Line Reference Source Output Connects to the pulse transformer's center tap HRD, LRD Output Select \H": HRD , nor common mode choke is required 1:2 pulse transformer interface Low power consumption CMOS , OUT S/T Line Output (positive) Connects to pulse transformer which drives S/T bus OUT S/T Line Output (negative) Connects to pulse transformer which drives S/T bus HTD, LTD Input Select IN \H" ... | Original |
26 pages, |
YTD428 YTD423 YTD421B-E YTD421B trtepc9.8-0386a 9 pin pulse transformer D1012 6 pin pulse transformer DDP001 LRD 14 24v center tap transformer 7 pin pulse transformer TSFL TDK TRANSFORMER CATALOG YTD421B abstract |
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| Abstract: Transformer Characteristics CHARACTERISTIC 5V to ±10V 5V to 5V 3.3V to 5V 5V to 24V 5V to ±5V , 11V-us *CT = Center Tapped Table 3. Transformer, Transformer Core, and Optocoupler Suppliers , supply voltage, the primary should have approximately 22 turns on each side of the center tap, or 44 , 19-0226; Rev 2; 4/10 Transformer Driver for Isolated RS-485 RS-485 Interface , power for an isolated RS-485 RS-485 or RS-232 RS-232 data interface. The device drives a center-tapped transformer ... | Original |
18 pages, |
74HC04 oscillator 74HC04 6N136 24v center tap transformer MAX253EPA MAX253ESA primary center tapped power transformer optocoupler ic 6N136 optocoupler 4N25 Maxim MAX253 12v center tap transformer MAX490 MAX253ESA T RS-485 MAX253 RS-485 abstract |
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| ) sees a flyback voltage equal to twice the center-tap voltage. The flyback in this application (24V at 250mA for local area network (LAN) applications. IC1's transformer-driver outputs (D1 and D2 -mount transformer T1 has a split primary, a single secondary, and a turns ratio of 1:1:1. This single -adds an extra winding that increases the transformer cost. The single-winding primary inductance would enable pure transformer action with no energy loss during the switching cycles.) The diode bridge www.datasheetarchive.com/files/maxim/0004/appno060.htm |
Maxim | 04/04/2001 | 6.94 Kb | HTM | appno060.htm |
| ) sees a flyback voltage equal to twice the center-tap voltage. The flyback in this application (24V at 250mA for local area network (LAN) applications. IC1's transformer-driver outputs (D1 and D2 -mount transformer T1 has a split primary, a single secondary, and a turns ratio of 1:1:1. This single -adds an extra winding that increases the transformer cost. The single-winding primary inductance would enable pure transformer action with no energy loss during the switching cycles.) The diode bridge www.datasheetarchive.com/files/maxim/0004/appno006.htm |
Maxim | 04/04/2001 | 6.94 Kb | HTM | appno006.htm |
| BRAKE DELAY CHARGE PUMP 2 GND RSENSE 1 GND MASK DELAY VPOWER PWM/SLEW CENTER TAP GND CHARGE PUMP 1 SENSE OUTPUT B PWM/SLEW CENTER TAP VPOWER VPOWER OUTPUT C OUTPUT C N.C. RSENSE 2 CSA INPUT RSENSE 2 GND 2 RSENSE 1 BRAKE DELAY OUTPUT B SPIN SENSE PWM/SLEW CENTER TAP VPOWER MASK/DELAY GND CSA INPUT CENTER TAP I Motor Center Tap used for differential BEMF sensing. 44 38 55 PWM/SLEW I R/C at this input .5 4.0 mV V trip Lower Trip Threshold 100 400 V BEMF AMPLIFIER Z inCT Center Tap Imput Impedance 20 30 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4053-v1.htm |
STMicroelectronics | 02/04/1999 | 58.93 Kb | HTM | 4053-v1.htm |
| DELAY CHARGE PUMP 2 GND RSENSE 1 GND MASK DELAY VPOWER PWM/SLEW CENTER TAP GND CHARGE SENSE OUTPUT B PWM/SLEW CENTER TAP VPOWER VPOWER OUTPUT C OUTPUT C N.C. RSENSE 2 CSA INPUT CHARGE PUMP 2 RSENSE 1 BRAKE DELAY OUTPUT B SPIN SENSE PWM/SLEW CENTER TAP VPOWER MASK/DELAY GND used for production Testing 43 37 54 CENTER TAP I Motor Center Tap used for differential BEMF sensing CT Center Tap Imput Impedance 20 30 40 K W V Bemf Minimum Bemf (Pk-Pk) 60 mV CURRENT SENSE AMPLIFIER I www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4053.htm |
STMicroelectronics | 20/10/2000 | 64.2 Kb | HTM | 4053.htm |
| BRAKE DELAY CHARGE PUMP 2 GND RSENSE 1 GND MASK DELAY VPOWER PWM/SLEW CENTER TAP GND CHARGE PUMP 1 SENSE OUTPUT B PWM/SLEW CENTER TAP VPOWER VPOWER OUTPUT C OUTPUT C N.C. RSENSE 2 CSA INPUT RSENSE 2 GND 2 RSENSE 1 BRAKE DELAY OUTPUT B SPIN SENSE PWM/SLEW CENTER TAP VPOWER MASK/DELAY GND CSA INPUT CENTER TAP I Motor Center Tap used for differential BEMF sensing. 44 38 55 PWM/SLEW I R/C at this input .5 4.0 mV V trip Lower Trip Threshold 100 400 V BEMF AMPLIFIER Z inCT Center Tap Imput Impedance 20 30 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4053-v2.htm |
STMicroelectronics | 14/06/1999 | 58.89 Kb | HTM | 4053-v2.htm |
| VPOWER PWM/SLEW CENTER TAP GND CHARGE PUMP 1 CHARGE PUMP 3 OUTPUT A VANALOG VPOWER N RSENSE 1 BRAKE DELAY OUTPUT B SPIN SENSE OUTPUT B PWM/SLEW CENTER TAP VPOWER VPOWER /SLEW CENTER TAP VPOWER MASK/DELAY GND CSA INPUT VCONTROL N.C. VLOGIC GND FMOTOR GND CENTER TAP I Motor Center Tap used for differential BEMF sensing. 44 38 55 PWM/SLEW I R/C at this input -9, the upper waveform is the voltage appearing at OUTPUT relative to the CENTER TAP input. The www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/4053-v3.htm |
STMicroelectronics | 25/05/2000 | 60.77 Kb | HTM | 4053-v3.htm |
| CCITT V.22 bis - See ITU V.22 bis CCITT V.24/V.28 - See ITU V.24/V.28 CCITT V.32 - See ITU V broaden European Standards participation to include manufacturers, research centers, private service , down each street, with taps outside each subscriber's home. Half Duplex - A transmission system . ITU V.22 bis - ITU standard for document transmission at 2400 and 1200 bits per second. ITU V.24/V.28 - Standards defining interchange circuits and electrical characteristics between DTE and DCE www.datasheetarchive.com/files/motorola/design-n/solution/isdn/glossary.htm |
Motorola | 25/11/1996 | 72.69 Kb | HTM | glossary.htm |
| an output resistive divider. For V o > 24V, for safety reasons it must be avoided the zero load = 100KHz . 330nF f = 200KHz . 220nF f = 500KHz . 100nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W KHz . 100nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W 4.7K W 4.7K W 6.2K W 9.1K W 12K W 18K W nF f = 500KHz . 100nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W 4.7K W 4.7K W 6.2K W 9.1K W nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W 4.7K W 4.7K W 6.2K W 9.1K W 12K W 18K W www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711-v1.htm |
STMicroelectronics | 02/04/1999 | 77.25 Kb | HTM | 1711-v1.htm |
| an output resistive divider. For V o > 24V, for safety reasons it must be avoided the zero load = 100KHz . 330nF f = 200KHz . 220nF f = 500KHz . 100nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W KHz . 100nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W 4.7K W 4.7K W 6.2K W 9.1K W 12K W 18K W nF f = 500KHz . 100nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W 4.7K W 4.7K W 6.2K W 9.1K W nF Table A. V0 R10 R8 12V 15V 18V 24V 4.7K W 4.7K W 4.7K W 4.7K W 6.2K W 9.1K W 12K W 18K W www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711-v2.htm |
STMicroelectronics | 14/06/1999 | 77.21 Kb | HTM | 1711-v2.htm |
| signal is fed to the primary of the transformer, while the secondary drives both ADC inputs. The common mode voltage of the ADC (INCM) is connected to the center-tap of the secondary of the transformer in order to bias the input signal around this common voltage, internally set to 0.56V designed to obtain optimum performances when being differentially driven. An RF transformer is with a 1:1 ADT1-1 transformer from Minicircuits. You might also use a higher impedance www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/7303.htm |
STMicroelectronics | 20/10/2000 | 36.05 Kb | HTM | 7303.htm |