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PMP5660.1 Texas Instruments Multi-Transformer 2x25V (390V@192mA) visit Texas Instruments
PMP5660.2 Texas Instruments Multi-Transformer 2x25V (50V@700mA) visit Texas Instruments
PMP5660 Texas Instruments Multi-Transformer 2x25V?50V@700mA, 390V@192mA visit Texas Instruments
PMP5412 Texas Instruments Transformer-less, non-isolated AC to DC visit Texas Instruments
ISO3086TDW Texas Instruments Isolated 485 Transceiver with integrated transformer driver 16-SOIC -40 to 85 visit Texas Instruments Buy
ISO1176TDW Texas Instruments Isolated ProfiBus Transceiver with integrated transformer driver 16-SOIC -40 to 85 visit Texas Instruments Buy

Transformer EE-25 100

Catalog Datasheet MFG & Type PDF Document Tags

XD 102 94V-0

Abstract: TDK Ferrite Core PC40 190mT 11 OmT 98mT 36.5A/m 31A/m 27.2A/m Oiflï 100°C 410kW/m3 120°C 25°C 51 OmT 60°C 450mT 100°C 390mT 120°C 350mT 25°C 95mT 60° C 65mT 100°C 55mT 25°C 60°C 120°C 50mT 14.3A/m 10.3A/m 100°C 8.8A/m 120 , .9/8-Z AL value (nH/N2 ) [1kHz, 0.5mA] 480 ±25% Core loss [100°C] Thermal metamorphic point , ] Part No. C ore loss [100°C ] PC40EEM12.7/13.7-Z PC50EEM12.7/13.7-Z 820 ±25% 580 ±25% 0.18 , transformer having a large number of terminals. · The high performance of the high ¡x material enables
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XD 102 94V-0 TDK Ferrite Core PC40 EE-25 200 6 transformer HT EE 19 transformer TDK H5C2 material core EE 25 transformer FEM12

tdk pc50

Abstract: EE bobbin tdk temperature Tc Pcv Core loss [200mT, sine wave] >215°C 25°C 60°C 100"C 120°C 25°C 60°C 100°C 120°C 25°C 60 , Df factor [1 to 10 minutes] Resistivity Apparent density Pv db 25°C 60°C 100°C 120°C *1 100kHz , Ferrite Cores For Transformer/Inductor EE, ER, EPC, EEM and T4 Series FEATURES · Miniature and , enables complete surface mounting even for a transformer having a large number of terminals. MATERIAL , 2400±25% 25°C 3000 min. PC50 1400±25% ¡i\ tanê//ii a/iir -3 0 to +20°C 20 to 70°C 15000±30% < 7 x 1
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EEM12 tdk pc50 EE bobbin tdk TDK Ferrite Core PC44 ee series ferrite transformer EE 60 bobbin TDK Ferrite Core PC50 BEM12 7-118G PC44EEM12

EE 35 transformer

Abstract: aui isolation transformer voltage difference between the RX pins or the CD pins with the transformer removed. 8. Not 100% tested in , transformer (see Figure 1, Connection Diagram). D, N Packages CD+ 16 CDS CD­ 2 15 TXO RX , · Available in 16-pin DIP, 16-pin SOL and both 20- and 28-pin 25 TX­ connected, allowing hard-wiring of AUI connection and local/integrated CTI connection TX+ · 100% drop-in compatible with , GND Positive Supply Pin. 4 5 13 5­7 16 ­ 17 5 to 11 20 to 25 1 VEE N/C
Philips Semiconductors
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NE83Q92 EE 35 transformer aui isolation transformer 10BASE PLCC28 EE-25 transformer NE83Q92A NE83Q92A20 IEEE802 SD00309 SD00307 SD00306 SD00279

dec 21140

Abstract: DEC21140 nominal 100 . The 1:2 transformer re filters or components are necessary because all duces (by the , data groups at 25 MHz transfer rate yielding 100 Mb/s throughput. In 10 Mb/s mode, the transfer rate , to 25 onchip. All CY7C971 media interface pins are dual termination resistors and the output buffer imped speed, allowing shared magnetics to be used. A quad ance together form a matching 25 1:2 transformer for electrical isolation and termina matching load insures that maximum signal is
Cypress Semiconductor
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100BASE 10BASE ST6115 DEC21140 dec 21140 MDIO ECUV1H330JCG pc motherboard schematics T4/10BASE RJ-45 7C971 100BASET4

bsc flyback transformer tv

Abstract: NCP4302 75 100 125 VTRIG = 0 V 9.3 9.2 9.1 9.0 -50 150 -25 0 25 50 75 , , JUNCTION TEMPERATURE (°C) -25 0 25 50 75 100 125 VCC = 19 V CDRV = No Load 2.70 2.30 1.90 1.50 -50 150 -25 0 25 50 75 100 125 150 TJ, JUNCTION , -25 0 25 50 75 100 125 150 35.0 CDRV = 1 nF 30.0 25.0 20.0 15.0 10.0 5.0 0 -50 -25 0 25 50 75 100 125 150 TJ, JUNCTION TEMPERATURE (°C) TJ
ON Semiconductor
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NCP4302 TL431 bsc flyback transformer tv TV flyback transformer bsc series mosfet ssd HIGH FREQUENCY Transformer ee 25 362 N MOSFET NCP4302A NCP4302B NCP4302/D

HIGH FREQUENCY Transformer ee 19

Abstract: EE 19 transformer 5 - 100 A 50/60 Hz current transformer Flyback regulator transformers Mag amps Power factor , inductors Micro SpringsTM 1.65 - 12.55 nH Mini SpringsTM 2.5 - 43 nH Midi SpringsTM 22 - 120 nH Maxi , High Current 1.6 - 24 nH 0805HT Low Profile 1.8 - 150 nH 0805CS 2.8- 820 nH 0805HQ High Q 2.5 - 51 nH 0805HS 3.3 - 220 nH 1008HT Low Profile 3.3 - 560 nH 1008CS 10 nH - 4.7 µH 1008HQ High Q 3.0 - 100 nH 1008HS 10 nH - 1 µH 1008CT Low Profile 4.7 - 100 nH 1008LS 1.2 - 10 µH 1206CS 3.3 nH - 1.2 µH 1812CS 1.0
Coilcraft
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HIGH FREQUENCY Transformer ee 19 EE 19 transformer EE - 19 TRANSFORMER EE transformers HIGH FREQUENCY Transformer ee 15 EE 28 transformer M2022 CM1394 0402CS 0603CS 0603HC 1812LS

bsc flyback transformer tv

Abstract: TV flyback transformer bsc series 10.4 10.3 10.2 -50 -25 0 25 50 75 100 125 VTRIG = 0 V 9.3 9.2 9.1 9.0 -50 150 -25 0 25 50 75 100 125 Figure 2. VCC(off) vs. Junction , 100 125 VCC = 19 V CDRV = No Load 2.70 2.30 1.90 1.50 -50 150 -25 0 25 , 4.00 CDRV = 1 nF 3.60 3.20 2.80 2.40 -50 -25 0 25 50 75 100 125 150 35.0 CDRV = 1 nF 30.0 25.0 20.0 15.0 10.0 5.0 0 -50 -25 0 25 50 75 100
ON Semiconductor
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TV flyback transformer bsc TV flyback transformer TL431 model SPICE flyback transformer tv HV Flyback schematic JESD78

MBL8392B

Abstract: MBL8392 in Connection Diagram-1. The transformer has a 1:1 turn ratio with an inductance between 30 and 100 , transformer has a 1:1 turn ratio with an inductance between 30 and 100 at 5 MHz. Note: All typical values , CABLE *1 T1 is a pulse transformer with a 1:1 turn ratio (L = 30 - 100 |L1H). *2 1N916 or equivalent , direct current in the pulse transformer and prevent the connected transformer from becoming saturated , . Controlled output rise and fall times of 25 ns ft5 ) minimize higher harmonics in the transmitted wave. To
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MBL8392B MBL8392 ethernet transformer 10base-2 DS04-22104-3E 10BASE5 10BASE2 MB86960A MB86965A

bsc flyback transformer tv

Abstract: TL431 928 Current VDRV -0.3 to 18 100 V mA Drive Current Source Sink IDRV Apk 2.5 -2.5 , VTRIG = 0 V 10.5 10.4 10.3 10.2 -25 0 25 50 75 100 9.28 VTRIG = 0 V , ), SHUTDOWN (V) 100 1.23 1.21 1.19 1.17 1.15 -25 0 25 50 75 3.1 VCC = 19 V 2.9 CDRV = No Load 2.7 2.5 2.3 2.1 1.9 1.7 1.5 100 -25 0 25 50 75 100 TJ , 0 25 50 75 100 25 CDRV = 1 nF 20 15 10 5 0 -25 0 25 50 75 100
ON Semiconductor
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TL431 928 flyback transformer pin connections obsolete ic cross reference Flyback Transformer Design FOR QR IC EE 19 Switching Transformer flyback transformer design for mosFET

DC-DC SOT28

Abstract: NE83c92A , IEEE 802.3 10BASE-5 and 25 HBE FEATURES · 100% drop-in compatible with 1 · High , between the RX pins or the CD pins with the transformer removed. 8. Not 100% tested in production , transformer. N Packages 16 CDS CD+ CD­ 2 15 TXO 3 14 VEE 4 13 VEE VEE 5 , Ethernet operation. 10 16 17 GND Positive Supply Pin. 4 5 13 5 to 11 20 to 25 VEE , and A packages) 60 °C/W NOTE: 1. 100% measured in production. 2. The junction temperature
Philips Semiconductors
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NE83C92 DC-DC SOT28 NE83c92A NE83C92N NE83Q93 SOT261-3 SD00310 SD00305 SD00280 SD00281 SD00282

"network interface controller"

Abstract: 10BASE2 protocol and buffer management tasks. 25 SD00283 and ISO 8802/3 interface specifications · 100 , transformer (see Figure 1, Connection Diagram). N PACKAGE 16 CDS CD+ 1 CD­ 2 15 TXO 3 , . 10 16 17 GND Positive Supply Pin. 4 5 13 5 to 11 20 to 25 VEE Negative , UNIT ­12 Supply voltage1 °C/W NOTE: 1. 100% measured in production. 2. The junction temperature is calculated from the following expression: TJ = TA + JA [VEE (0.08 + n x 0.05/100) + 8(VEE ­2
Philips Semiconductors
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NE8392C IN916 NE8392CA NE8392CN SD00284 SD00277 SD00278

EE-19 transformer

Abstract: EE-19 n transformer Driver FEATURES Receives Power and Signal from Single Isolation Transformer Generates Split Rail for , -28 (Top View) QP Package 3 2 1 28 27 26 25 6 24 7 8 23 22 9 21 10 20 19 , PIN 5 FRPLY Q i 1 2 3-4 5 6 7 8 9 10 11 12-18 19 20 21 22 23 24 25 26 27 28 3 2 5 PACKAGE PIN FUNCTION FUNCTION PIN 1 28 27 26 ^ 25 6 24 7 23 8 , 8 9 10 11 12-13 14 15-18 19 20 21 22 23 24 25 26-28 UC1727 UC2727 UC3727 See A p
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EE-19 transformer EE-19 n transformer Power Transformer EE-19 frc 34 pin UC1726

k3525

Abstract: MBL8392A -2 -250 -225 -2.5 -370 -300 -130 -175 100 254 MBL8392A TIMING CHARACTERISTICS V EE = , using DC-toDC conversion through a power transformer as shown in Figure 1 . 247 CD+ [ 7 C D- [ T RX , O 25] VE E 24] VE E U vE E m vE E E l VE E ID vE E ]9] RR- IF l i L UL L U L U U > > , + , . T1 IS A 1:1 PULSE TRANSFORMER, WITH AN INDUCTANCE OF 30 TO 150 (iH. 2. 1N916 OR EQUIVALENT FOR , , 13 16,17 5 to 11 20 to 25 GND - POSITIVE SUPPLY PIN NEGATIVE SUPPLY PINS: These pins
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k3525 APRIL1993 28-PIN M0-047-AB 5M-1982

EE25 transformer

Abstract: TOP256EN current level) U1 begins to switch. 25 A corresponds to a line voltage of 100 VDC. The UV lockout also , 470 pF R15 100 V 33 C13 680 F 25 V T1 2 EE25 9 C4 2.2 nF 1 kV R6 33 1/2 W D1 2KBP06M , open-loop protection · Meets limited power source requirements ( , transformer TOPSwitch-HX employs EcoSmart® technology to provide maximum efficiency over the entire load , by applying a bias to the X pin. This limits the outputing power to
Power Integrations
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EE25 transformer TOP256EN ee25 10 pin transformer ferrite ee25 top256 topswitch-hx DI-199

smd PULSE TRANSFORMER

Abstract: Pulse Transformer VAC (BOTTOM VIEW) 1.3 [.051] 1 2.5 8x [.098] 10 x 2.54 [.100] 8 4 LINE 9 3 , . K TERMINAL LAYOUT 2.5 [.098] K SCHEMATICS 0.9 10 x [.035] (BOTTOM VIEW) 1 10.0 , 0.63/0.33 1.82/0.76 100/25 100/25 100/25 EP1311 T10121 400uH ±5% WITHIN 1:2(+­2%) 7uH (2+3, 8+9)Tie ­90db 60db 0.63/0.33 100/25 53 For xDSL POTS SPLITTER COILS , PULSE TRANSFORMERS 10/100 BASE PULSE TRANSFORMERS OUTLINE This is a pulse transformer + filter
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EEH1313 CEP1311 smd PULSE TRANSFORMER Pulse Transformer VAC sumida ift coil M-8G MC-102 transformer MIT4115V MIT-4115V EEH1617 CEP79 CEP811 CEP1311C

TRANSFORMER sanken catalog

Abstract: AC reactor choke design Reactor & Transformer Reactors meeting the new standard for harmonic current are already , E N T S Product Name Transformer Also low-frequency transformer is available. Harmonic , available for all Series Switching Transformer for Resonant Triple Insulated Wire type Transformer Switching Transformer EER type Switching Transformer EE, EI type Switching Transformer Flat type Low , Harmonics/EMI HS type Universal type qNote( Transformer) D B R S 28 T 5 A Identification Pin
Sanken Electric
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TRANSFORMER sanken catalog AC reactor choke design 2825 transformer AC reactor choke pt sanken transformer type B K1-S09JB0-9804030TA

RJ45 s tech

Abstract: P55-PZ1-1NM9 NAME RJ45 1×1 Tab up w/ Transformer & w/o LED PRODUCT NO P55-PZ1-1NM9(Lead Free , : RJ45 1×1 Tab up w/ Transformer & w/o LED 1 SCOPE 1.1 Content 1.1.1 This specification covers , is e n da lat ufa ta es ct sh t r ur ee ev er t isi s on Tab up w/ Transformer & w/o LED , : Phosphor Bronze Finish : ( a ) Contact Area : 30" min. Gold ( b ) Solder tail Area : 100" min. Matted Tin ( c ) Underplating : 50~100" Nickel over all 4.2.1.2 Joint Contact : Brass Finish : Gold flash or
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DG060082 RJ45 s tech s tech rj45 RJ45 speed tech 36 SUS304 EE 55 TRANSFORMER R-P03-R032A MIL-STD-1344A EIA-364 100KH 1500VAC

10BASE PLCC28

Abstract: NE83Q92 no coaxial cable is 25 HBE conditions to minimize current consumption TX­ · 100 , voltage difference between the RX pins or the CD pins with the transformer removed. 8. Not 100% tested in , isolation for the CTI is achieved using DC-to-DC conversion through a power transformer (see Figure 3 , 13 5­7 16 ­ 17 5 to 11 20 to 25 1 VEE N/C Negative supply pins. Not used. NOTE , packages) 60 °C/W NOTE: 1. 100% measured in production. 2. The junction temperature is
Philips Semiconductors
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NE83Q92D NE83Q92N EE type transformer ethernet transformer Application Note

TXO-210

Abstract: E839 for the CTI is achieved using DC-to-DC conversion through a power transformer (see Figure 1 , . 16 1 16 17 5 to 11 20 to 25 CDS 10 4 5 13 GND V ee NOTE: 1. The IEEE 802.3 name for , +150 +300 + 130 60 UNIT V v °C °C °C °C/W T sold Tj 9ja NOTE: 1. 100% measured in production , n x 0.05/100) + 8(VEE -2 ) / R] where Ta = Ambient temperature in °C. 0ja = Thermal resistance of , V fe track* For the A package, Pins 5 to 11 and 19 to 25 should similarly be soldered to a large
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TXO-210 E839

8392A

Abstract: The transformer has a 1:1 turn ratio with an inductance between 30 and 100^H at 5MHz. 3. The rise and , DC-to-DC conversion through a power transformer (see Figure 1, Connection Diagram). The part is fully pin , V V V|N t stg t so ld °c °c °c °c/w Tj ÖJA NOTE: 1. 100% measured in production. 2 , MIN TYP -7 .5 -1 5 MAX UNIT V -2 0 -8 5 +25 +3 V e e +1-6 mA mA HA MA V V mA ' ee , HA V V -100 -4 5 ± It d c HA mA mA HA V mV V Transmit current Transmitter output voltage
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8392A
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