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10mH inductor

Catalog Datasheet MFG & Type PDF Document Tags

10mH inductor

Abstract: transistor D337 components have been selected and pre-soldered onto the module board with the D340B IC. 10mH (Inductor L , an appropriate value of inductor (L) into the labeled sockets, as shown in Figure 1. Additional , for bypass capacitor Input/Output power connection Enable jumper header Inductor socket
Durel
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10mH inductor transistor D337 D340

10mH inductor

Abstract: BAS20 649k VIN 3.0V Lamp Brightness LX 5 BAS20 HV857 - 1.0mH Inductor: Murata , sharp rise in current usually indicates a saturated inductor. To avoid inductor saturation, use a higher current rated inductor or increase the conversion frequency by lowering the RSW resistor value , Brightness BAS20 BAS20 5 560 H Inductor: Murata LQH43MN561 100 H 0.01 F 100V Inductor: Murata LQH43MN101 1235 Bordeaux Drive, Sunnyvale, CA 94089 2 Tel: 408-222-8888
Supertex
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wall lamp AN-H63 LQH43MN221

ECD-S2AP272CA

Abstract: resistor 2512 the power source is isolated by a 10mH inductor, as directed in Power & Earthing of Transmission
Maxim Integrated Products
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MAX5921 MAX5921AESA ECD-S2AP681BA ECD-S2AP272CA resistor 2512 FDB2532 18uF capacitor brownout 060310R0FKEA

pwm using XR-2206

Abstract: XR-2206 IC a reasonably small package. L1 was selected to be a 10mH, 120mA inductor. The peak current for the , Positive high voltage supply = = = Negative high voltage supply 10mH inductor PWM frequency 2 , Inductor 10mH 15% 120mA Diode array, fast recovery BAV99 - 70V D3 Diode, fast , ceramic chip capacitor 680pF 10% 50V Inductor 1.0mH 10% 510mA D1-D2 L1 Diode , inductor saturation. VDD R9 10.0K R12 1.00K R11 3.32K R7 · R8 - 2R6 · R8 RD = = R8 ·
Supertex
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pwm using XR-2206 XR-2206 IC XR-2206 amplitude controlled Wien Bridge Oscillator pin diagram of XR 2206 Wien Bridge Oscillator AN-H37 HV440 62VRMS 40VRMS BAS21 TP2522N8-G

pwm using XR-2206

Abstract: XR-2206 Positive high voltage supply VNN1 = Negative high voltage supply L1 = 10mH inductor f = PWM frequency , ceramic chip capacitor 680pF 10% 50V Inductor 10mH 15% 120mA Diode array, fast , ceramic chip capacitor 680pF 10% 50V Inductor 1.0mH 10% 510mA Diode array, fast , frequency for the 5 REN circuit is different from the 20 REN circuit to avoid output inductor saturation , switching frequency low to minimize switching losses. The inductor current should be kept as low as
Supertex
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TN2524N8 XR-2206 DATASHEET XR-2206 CIRCUIT IC XR2206 pin diagram of ic xr2206 ML2035 wien bridge TP2522N8 LM2902M LM2903M HV440WG

pwm using XR-2206

Abstract: XR2206 a reasonably small package. L1 was selected to be a 10mH, 120mA inductor. The peak current for the , x f Positive high voltage supply Negative high voltage supply 10mH inductor PWM frequency , ceramic chip capacitor 680pF 10% 50V Inductor 10mH 15% 120mA Diode array, fast , D3 X7R ceramic chip capacitor 680pF 10% 50V Inductor 1.0mH 10% 510mA Diode , avoid output inductor saturation. 1 tCHG + t DIS where, VDD = VUL = VLL = tDIS = tCHG =
Supertex
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XR2206 capacitor 4.7uf 250v polyester xr2206 truth table sine wave generator circuit using xr2206 sine wave voltage controlled oscillator capacitor 680pf

10mH inductor

Abstract: D372A average 1.0mH inductor. 9 30 9 8 28 8 26 4 18 3 Brightness (Ft-L) 20 6 , On Off Enable Voltage On Off Output Voltage Lamp Frequency Inductor Frequency Symbol , pumping inductor input High voltage storage capacitor AC output to lamp AC output to lamp Wave shaping , inverter drives the EL lamp by using a switching BJT to repeatedly charge an external inductor and , logic controls the lamp operating frequency (LF) and the inductor switching frequency (HF). These
Durel
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D372A MSOP-10 1DDD372AA-M01 1DDD372AA-M02 bujeon CLS62 D372

low voltage clf circuit

Abstract: bujeon frequencies. The data was taken with an average 1.0mH inductor and 68 pf CHF capacitor. 45 Luminance 8 , enable: HI = On System ground connection Charge pumping inductor input High voltage storage capacitor , lamp by using a switching BJT to repeatedly charge an external inductor and discharge it to the high , the lamp operating frequency (LF) and the inductor switching frequency (HF). These signals are used to drive the high voltage output circuitry (H-bridge) by delivering the power from the inductor to
Durel
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1DDD372AA-M04 EIA-481-2 low voltage clf circuit LIT-I9032

bujeon

Abstract: BDS-3516S different frequencies. The data was taken with an average 1.0mH inductor and 68 pf CHF capacitor. 9 45 , Enable Current On Off Output Voltage Lamp Frequency Inductor Frequency Minimum Typical Vout , clock input System enable: HI = On System ground connection Charge pumping inductor input High , inverter drives the EL lamp by using a switching BJT to repeatedly charge an external inductor and , logic controls the lamp operating frequency (LF) and the inductor switching frequency (HF). These
Durel
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BDS-3516S

LQH3C1R0M04

Abstract: LQH3C1r0m0 ground RF noise. The inductor RF choke should be approximately 0.5 to 1.0µH for adequate loss to block , power supply drop. Examples of components with good RF characteristics are the Murata LQH3C1R0M04 1.0mH inductor, and the Murata GRM39Y5V104Z025AD capacitor or equivalent ceramic surface mount components. The , /MFO/97.07 © 1997, Molex Fiber Optics, Inc. Page 5 . Vcc Inductor Cap +Tx Power (Pin 6) Cap Inductor Cap +Rx Power (Pin 5) Cap Transceiver Transceiver Power Supply
Molex
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LQH3C1r0m0 86990-9020 molex single mode fiber cable magic eye alarm LQH3C1r0 86990-9010 OC-12 MFO-012/R USA/50/MFO/97
Abstract: 0.8A MBS Renco 10mH inductor THERMISTOR 100K OHM NTC 0603 SMD MOSFET N-CH 600V 1.3A DPAK MOSFET Cirrus Logic
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AN401 CS1615 CRD1615-25W-33V CRD161525W-33V 108VAC
Abstract: FUSE PICE FAST 1A AXIAL MANHATTAN_11W_BOOST_EE10 10mH Inductor MOSFET N-CH 600V 1A DPAK MOSFET N-CH , - Trailing Edge CRD1630-10W 7. INDUCTOR CONSTRUCTION The CRD1630-10W includes a critical , flyback inductors installed on the CRD1630-10W. 7.1 Boost Inductor The CS1630 uses an adaptive dimmer compatibility algorithm to control the boost inductor stage, which guarantees dimmer , Inductor Schematic 7.1.1 Electrical Specifications Characteristics conditions: â'¢ Operating Cirrus Logic
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120VAC CRD1630-10W-Z DS1004RD2 EN555022 55022MQP 55022MAV

10w led diode

Abstract: FUSE PICE FAST 1A AXIAL 10mH Inductor MANHATTAN_10W_BOOST MOSFET N-CH 600V 1A DPAK MOSFET N-CH 500V , -10W 7. INDUCTOR CONSTRUCTION The CRD1631-10W includes a critical conduction mode (CRM) boost converter , CRD1631-10W. 7.1 Boost Inductor The CS1631 uses an adaptive dimmer compatibility algorithm to control the boost inductor stage, which helps to ensure dimmer compatibility operation plus enables , Inductor Schematic 7.1.1 Electrical Specifications Characteristics conditions: â'¢ Operating
Cirrus Logic
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10w led diode 230VAC CRD1631-10W-Z ENV216 DS1005RD2

600uH-PQ2620

Abstract: sg5842a FR103 FUSE 4A/250V Choke (900µH) Choke (10mH) Inductor (2µH) Diode 20A/100V Reference Q2 R1,R2,R5,R7
System General
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600uH-PQ2620 sg5842a DSA0023757 PC817IC TTC-104 sg5842jasz SG5842A/JA SG5842JA IAO33 381X45 015X45
Abstract: inductors, a 10mH inductor is typical. The main parameter for inductor selection is the saturation current , ) The buck converter is able to operate with 6.8mH to 15mH inductors, a 10mH inductor is typical. The , buck-boost converter is able to operate with 10mH to 47mH inductors, a 22mH inductor is typical. The main , inductor is required. To minimize possible audible noise problems, one 10mF capacitor in parallel is , voltage where peak switch current is the highest. The inductor and external Schottky diode has to be able Texas Instruments
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TPS65171 SLVSA22A

TPS65171RHAR

Abstract: TPS65171 with 6.8mH to 15mH inductors, a 10mH inductor is typical. The main parameter for inductor selection is , 10mH inductor is typical. The main parameter for inductor selection is the saturation current of the , inductors are shown in Table 6. Table 6. Inductor Selection Buck Converter INDUCTOR VALUE 10mH 10mH 10mH , operate with 10mH to 47mH inductors, a 22mH inductor is typical. The main parameter for inductor selection , inductor is required. To minimize possible audible noise problems, one 10mF capacitor in parallel is
Texas Instruments
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TPS65171RHAR NTC 4.7K termistor marking r10 SOD capacitor 10mf 16v

capacitor 10mf 16v

Abstract: Termistor NTC 1 K with 6.8mH to 15mH inductors, a 10mH inductor is typical. The main parameter for inductor selection is , 10mH inductor is typical. The main parameter for inductor selection is the saturation current of the , inductors are shown in Table 6. Table 6. Inductor Selection Buck Converter INDUCTOR VALUE 10mH 10mH 10mH , operate with 10mH to 47mH inductors, a 22mH inductor is typical. The main parameter for inductor selection , inductor is required. To minimize possible audible noise problems, one 10mF capacitor in parallel is
Texas Instruments
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Termistor NTC 1 K

TPS65171

Abstract: TPS65171RHAR Converter) The boost converter is able to operate with 6.8mH to 15mH inductors, a 10mH inductor is typical , 10mH inductor is typical. The main parameter for inductor selection is the saturation current of the , losses at the external isolation switch, a filter capacitor C3 at the input terminal of the inductor is , is the highest. The inductor and external Schottky diode has to be able to handle this current. V ´ , Converter switching frequency (typical 750 kHz) L = Selected inductor value h = Estimated converter
Texas Instruments
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termistor 10k termistor NTC ntc 10K B 3950 NTC 22K EMK325BJ106MN IRLML6402

TPS65171

Abstract: capacitor 47MF 50v with 6.8mH to 15mH inductors, a 10mH inductor is typical. The main parameter for inductor selection is , 10mH inductor is typical. The main parameter for inductor selection is the saturation current of the , inductors are shown in Table 6. Table 6. Inductor Selection Buck Converter INDUCTOR VALUE 10mH 10mH 10mH , operate with 10mH to 47mH inductors, a 22mH inductor is typical. The main parameter for inductor selection , inductor is required. To minimize possible audible noise problems, one 10mF capacitor in parallel is
Texas Instruments
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capacitor 47MF 50v NTC 2.2K NTC 2,2k capacitor 47MF capacitor 22MF DEC SS14
Abstract: RSHUNT Inductor 10mH Inductor 10mH 5 AGND C16 0.01µF AGND C17 0.1µF C15 Texas Instruments
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ADS1293EVM MSP430 ADS1293VM ISO/TS16949
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