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PMP7357 Texas Instruments 17VDC-32VDC Input, 3.3V/10W Active Clamp Forward visit Texas Instruments

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17VDC

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: LIMITS CO NDITIO N OUTPUT LIMITS +17Vdc 300mA +12.0Vdc ±.06Vdc -17Vdc 300mA -12.0Vdc ±.06Vdc +10Vdc 300mA +5.0Vdc ±.05Vdc +17Vdc 300mA +12.0Vdc ±.12Vdc -17Vdc , +17Vdc V IN 50 to 300mA II V0 at Temp. ±.12Vdc -17Vdc 50 to 300 mA Vo at Temp. ±.12Vdc +10Vdc 50 to 300mA V0 at Temp. ±.050Vdc Ripple Rejection at +25° C V IN II +17Vdc 300mA 60dB Min. at 120Hz -17Vdc 300mA 60dB Min. at 120Hz +10Vdc 300mA 60dB Min. at -
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REGULAT0RS-8007

js 8017

Abstract: 17VDC +17Vdc 300mA +12.0Vdc ±.06Vdc -17Vdc 300mA -12.0Vdc ±.06Vdc +10Vdc 300mA +5.0Vdc ±.05Vdc Output -Voltage at +200°C VIN II +17Vdc 300mA +12.0Vdc ±.12Vdc -17Vdc 300mA -12.0Vdc ±.12Vdc +10Vdc 300 mA , +25° C to +200° C V,N II +17Vdc 50 to 300mA V0 at Temp. ±.12Vdc -17Vdc 50 to 300 mA V0 at Temp. ±.12Vdc +10Vdc 50 to 300mA V0 at Temp. ±.050Vdc Ripple Rejection at +25° C V,n II +17Vdc 300mA 60dB Min. at 120Hz -17Vdc 300mA 60dB Min. at 120Hz +10Vdc 300mA 60dB Min. at 120Hz Noise Output at +25° C ViN II
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js 8017 17VDC ICL 8007 C 0-50Vdc 050VDC geophone

TQM71356

Abstract: TQM7136 : VCC1=3.4VDC, VCC2=3.4VDC, VREF =2.85VDC, VCTRL1=1.7VDC, VCTRL2 =1.7VDC, Tc=25°C, Pout = 28.0dBm Note 2: Test Conditions AMPS Mode: VCC1=3.4VDC, VCC2=3.4VDC, VREF=2.85VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC , =2.85, VCTRL1=1.7VDC, VCTRL2=1.7VDC, RF=836MHz, TC = 25°C unless otherwise specified. Note 2: Min./Max. limits , =3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC, VREF=2.85VDC, POUT=28.0dBm, Tc=+25°C. Efficiency vs. Temp , ): VCC1=3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC, VCTRL2=0.5VDC, VREF=2.85VDC, POUT=12.0dBm, Tc=+25°C. ACPR vs
TriQuint Semiconductor
Original
TQM7136 TQM71356 IS-95/98

17VDC

Abstract: =2.85VDC, VCTRL1=1.7VDC, VCTRL2 =1.7VDC, Tc=25°C, Pout = 28.0dBm Note 2: Test Conditions AMPS Mode: VCC1=3.4VDC, VCC2=3.4VDC, VREF=2.85VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC, Tc=25°C, Pout=31.5dBm For additional , Conditions: VCC1=3.4VDC, VCC2=3.4VDC, VREF=2.85, VCTRL1=1.7VDC, VCTRL2=1.7VDC, RF=836MHz, TC = 25°C unless , Conditions (Unless Otherwise Specified): VCC1=3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC, VREF , Power Mode: Test Conditions (Unless Otherwise Specified): VCC1=3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC
TriQuint Semiconductor
Original
Abstract: to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC VIN = 17 to 40VDC , µsec µsec msec Input step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC 2 ±150 -300 +300 25 500 7 +180 -600 400 400 +180 -600 400 400 , mVpk µsec µsec msec Input step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC +180 -600 400 400 +300 1000 800 800 +180 -600 400 400 +500 International Rectifier
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AHE28XXS MIL-STD-704D 28VDC 250KH MIL-PRF-38534 5962-8968301HXX

AT028

Abstract: 17Vdc V in = 17 to 40 VDC Iout = 0 to Full Load + 180 -600 400 400 +180 -600 400 400 + 180 , Input step Input step Input step 17 to 40Vdc 40 to 17Vdc 17 to 40Vdc 40 to 17Vdc +180 -600 400 400 , 17 to 40Vdc Input step 40 to 17Vdc Input step 17 to 40V dc Input step 40 to 17Voc Vin = 17 to 40 VDC , B: Input step 17Vdc to 40Vdc Figure 10 Line Step Response A: Output @ 200mV/DIV, Full Load B: Input Step 40Vdc to 17Vdc Figure 11 200/xs/div Line Step Response A: Output @ 50mV/DIV, Full Load B
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AT028 AHE2800S MIL-STD-1772

Intech 550

Abstract: 17VDC Input step 17 to 40VDC Input step 40 to 17VDC +180 -600 400 400 +180 -600 400 400 , 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC +180 -600 400 400 , Step 40 to 17Vdc Input Step 17 to 40VDC Input Step 40 to 17VDC +180 -600 400 400 +300 -1000 , , Full Load B: Input step 17Vdc to 40Voc Figure 9 0001814 Figure 10 3bT M A D V A Load
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Intech 550 AHE2805S AHE2812S/AHE2815S MIL-STD-883C

AHE2805S

Abstract: to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC VIN = 17 to 40VDC , µsec µsec msec Input step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC 2 ±150 -300 +300 25 500 7 +180 -600 400 400 +180 -600 400 400 , µsec µsec msec Input step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC +180 -600 400 400 +300 1000 800 800 +180 -600 400 400 +500 -1500
International Rectifier
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5962-8968301HZX 5962-8968302HXX 5962-8968302HZX 5962-8968303HXX 5962-8968303HZX AHE2805S/CH

MIL-STD-461B

Abstract: AHE2805S mVpk mVpk mVpk µs µs msec Input step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC VIN = 17 to 40VDC IOUT = 0 to Full load +180 -600 400 400 +180 , Overshoot Delay3 40VDC 17VDC 40VDC 17VDC VIN = 17 to 40VDC IOUT = 0 to Full Load 0 8.0 500 , step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC +180 -600
International Rectifier
Original
MIL-STD-461B AHE2812S AHE2815S PD-94554B MIL-PRF38534 RF-38534

hzx 1300

Abstract: * LOAD FAULT RECOVERY4 WEIGHT Input step 17to40VDC Input step 40 to 17Vdc Input step 17 to 40Vdc Input step 40 to 17Vdc VlN 17 tD 40VDC Iout 0 to Full Load V in » 17 to 40Vdc +180 -G O O 400 400 0 , WEIGHT Input step 17 to 40VDC Input step 40 to 17Vdc Input step 17 to 40Vbc Input step 40 to 17VDC V w , No Load Input Step 17 to 40VDC Input Step 40 to 17VDC Input Step 17 to 40VDC Input Step40to17VDC Vin , Una Stap Raaponaa A: Output @ SOmV/DIV, Full Load B: Input atap 17Vdc to 40Vdc Figum 10 Una Stap
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hzx 1300 AHE2605S AHE2812SMHE28

5962-8968301HZX

Abstract: MIL-STD-704D 17VDC Input step 17 to 40VDC Input step 40 to 17VDC VIN = 17 to 40VDC IOUT = 0 to Full load +180 , mVpk mVpk mVpk µsec µsec msec Input step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC 2 ±150 -300 +300 25 500 7 +180 -600 400 400 +180 -600 , step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC +180 -600
International Rectifier
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AHE2805SF/CH AHE2805S/CH-SLV AHE2805SF/CHSLV AHE2805S/CH-MSTR AHE2805SF/CH-MSTR 5962-9162501HXX
Abstract: 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC VIN = 17 to 40VDC IOUT = , â'"ON Overshoot Delay3 40VDC 17VDC 40VDC 17VDC VIN = 17 to 40VDC IOUT = 0 to Full Load 0 , 5.0 mVpk mVpk mVpk µs µs ms Input step 17 to 40VDC Input step 40 to 17VDC Input step 17 to 40VDC Input step 40 to 17VDC +180 -600 400 400 +300 1000 800 800 +180 -600 400 International Rectifier
Original

2N4261

Abstract: 2N4261UB SWITCHING CHARACTERISTICS Parameters / Test Conditions Symbol Min. Turn-On Time VCC = 17Vdc; IC = 10mAdc ton 2.5 s Turn-Off Time VCC = 17Vdc; IC = 10mAdc toff 3.5 s (4) Pulse
Microsemi
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2N4261 2N4261UB MIL-PRF-19500/511 T4-LDS-0150
Abstract: . LDM485-P 12kâ"¦ min/input 12VAC, ±10%, 10W screw terms 1 & 2 +11.5 to +17VDC @ 500mA on pin 9 -11.5 to -17VDC @ 100mA on pin 10 0°C to +70°C, 0-95% relative humidity, noncondensing 53.3 mmH x Omega Engineering
Original
RS-232/485 LDM485 RS-232 RS-485 120VAC

afa461

Abstract: MIL-STD-461B CHANGES Output Transient Recovery® Input step 17 to 40Vdc Input step 40 to 17Vdc Input step 17 to 40Vdc , ® Input step 17 to 40Voc Input step 40 to 17Vdc Input step 17 to 40Vdc Input step 40 to 17Vdc + 180 -600 , , Full Load B: Input step 17Vdc to 40Vdc 200i»s/div Figure 10 Line Step Response A: Output @ 200mV/DIV, Full Load B: Input Step 40Vdc to 17Vdc 200|is/div Figuren Line Step Response A: Output @ 50mV
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afa461 ADVA 750 ADVA T-57-11 4624S47

TOP210

Abstract: PM130-H1A circuit provides +17Vdc at 200mA continuous and is capable of >225mA peak for short periods of time. This , N/C N/C C3 47uF 35V PRI 4 +17Vdc @ 200mA 7 2 VR1 P6SMB110AT3 L1 5uH
Premier Magnetics
Original
PM130-R1 PM130-H1 PM130-H1A PWR-TOP210 TSD-1035 TOP210 TOP210 schematic SWITCHING REGULATOR CONTROL CIRCUIT FOR 500 kHz O schematic diagram of PM130-H1A PWR-TOP210PFI UL1950 IEC950 CSA-950

MUR160 SMD

Abstract: smd p6ke200a provides +17Vdc at 100mA continuous and is capable of >120mA peak for short periods of time. This circuit , CONTROL N/C N/C +17Vdc @ 100mA 7 PRI 4 L1 5uH BEAD D3 MUR160 N/C S S
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MUR160 SMD smd p6ke200a 12V .4A Transformer 250-UL 12V 4A Transformer PWRTOP210PFI E177139 TSD-873 370VDC P6KE200A 1N5994B 1N4148
Abstract: = 17Vdc; IC = 10mAdc ton 2.5 ηs Turn-Off Time VCC = 17Vdc; IC = 10mAdc toff 3.5 Microsemi
Original
2N4261UBC

2N4261 equivalent

Abstract: 2N4261 CHARACTERISTICS Parameters / Test Conditions Symbol Min. Turn-On Time VCC = 17Vdc; IC = 10mAdc ton 2.5 s Turn-Off Time VCC = 17Vdc; IC = 10mAdc toff 3.5 s (4) Pulse Test: Pulse Width
Microsemi
Original
2N4261 equivalent

Lambda Advanced Analog

Abstract: AHE2800S Input step 17 to 40VDC Input step 40 to 17V DC Input step 17 to 40VDC Input step 40 to 17VDC , Input step 17 to 40VDC Input step 40 to 17VDC TURN-ON Overshoot Delay3 VIN = 17 to 40VDC IOUT , 17VDC Input Step 17 to 40VDC Input Step 40 to 17VDC TURN-ON Overshoot Delay3 VIN = 17 to 40VDC
Lambda Advanced Analog
Original
Lambda Advanced Analog MIL-STD-704 MIL-STD-883 ISO9001

ATC600S0R

Abstract: A114 : VCC1=3.4VDC, VCC2=3.4VDC, VREF =2.85VDC, VCTRL1=1.7VDC, VCTRL2 =1.7VDC, Tc=25°C, Pout = 28.0dBm Note 2: Test Conditions AMPS Mode: VCC1=3.4VDC, VCC2=3.4VDC, VREF=2.85VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC , =2.85, VCTRL1=1.7VDC, VCTRL2=1.7VDC, RF=836MHz, TC = 25°C unless otherwise specified. Note 2: Min./Max. limits , =3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC, VREF=2.85VDC, POUT=28.0dBm, Tc=+25°C. Efficiency vs. Temp , ): VCC1=3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC, VCTRL2=0.5VDC, VREF=2.85VDC, POUT=12.0dBm, Tc=+25°C. ACPR vs
Freescale Semiconductor
Original
ATC600S0R A114 A115 AN1977 AN1987 C101 MD7IC2755N MD7IC2755NR1 MD7IC2755GNR1

MD7IC2755N

Abstract: atc600s0r5bt250xt =2.85VDC, VCTRL1=1.7VDC, VCTRL2 =1.7VDC, Tc=25°C, Pout = 28.0dBm Note 2: Test Conditions AMPS Mode: VCC1=3.4VDC, VCC2=3.4VDC, VREF=2.85VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC, Tc=25°C, Pout=31.5dBm For additional , Conditions: VCC1=3.4VDC, VCC2=3.4VDC, VREF=2.85, VCTRL1=1.7VDC, VCTRL2=1.7VDC, RF=836MHz, TC = 25°C unless , Conditions (Unless Otherwise Specified): VCC1=3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC, VCTRL2=1.7VDC, VREF , Power Mode: Test Conditions (Unless Otherwise Specified): VCC1=3.4VDC, VCC2=3.4VDC, VCTRL1=1.7VDC
Freescale Semiconductor
Original
atc600s0r5bt250xt J851 GSC356 ATC600S6R8BT250XT

J350

Abstract: J449 Vo1 Go1 6 34V 5 4 13-2 Connection of Outputs in Parallel to Achieve 17Vdc Output Voltage The connection in parallel of both 17 Vdc outputs provides 17Vdc output voltage (at 35W , achieve 17Vdc output voltage». The EMI filter structure is the same as for a single module connection
Freescale Semiconductor
Original
J350 J449 ATC600F101JT250XT ATC600F0R5BT250XT MD7IC SG732AT MD7IC18120N MD7IC18120N/GN MD7IC18120NR1 MD7IC18120GNR1 WBL-16

ATC600S6R8BT250

Abstract: GRM55DR61H106KA88 of Outputs in Parallel to Achieve 17Vdc Output Voltage The connection in parallel of both 17 Vdc outputs provides 17Vdc output voltage (at 35W power). With a connection in parallel, the HGMM-35 has to be , capacitances have to be determined according to section 13-2 paragraph «Connection in Parallel to achieve 17Vdc
Freescale Semiconductor
Original
ATC600S6R8BT250 GRM55DR61H106KA88 wimax spectrum mask

Ab3230

Abstract: Voltage The connection in parallel of both 17 Vdc outputs provides 17Vdc output voltage (at 35W , achieve 17Vdc output voltage». The EMI filter structure is the same as for a single module connection
Freescale Semiconductor
Original
Ab3230
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