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mexico capacitor 25v 1M

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Abstract: ±2.5V) Avd Tmin. Tamb. Tmax. High Level Output Voltage (V id = 1V) VOH RL = 600 RL = 150 RL = , Flatness (f = DC to 6MHz, AVCL = 10dB) Total Harmonic Distortion (f = 1kHz, Vo = ±2.5V, RL = 600 , capacitor very close to the device and 10uF capacitor. · To provide low inductance and low resistance , . · Choose component sizes as small as possible (SMD). · On output, decrease capacitor load so as to , 80 60 40 1.5 1.0 20 0.5 1k 10k 100k 1M Fre quency (Hz) 6/9 10M ... STMicroelectronics
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datasheet

9 pages,
91.65 Kb

TSH93I TSH93 mexico capacitor 25v 1M TEXT
datasheet frame
Abstract: needed: one inductor, one diode, one capacitor and two resistors. The resistors allow independent , voltage range is 0.9V to 2.5V. Typical output lamp drive voltage is 112V peak-to-peak. EL lamps of up to , consumption x Wide operating voltage range - from 0.9V to 2.5V x Simple design requires few passive , Electroluminescent Lamp Driver/Inverter Key Features x Wide operating voltage range - from 0.9V to 2.5V x , and below. The input supply voltage range is 0.9V to 2.5V. Typical output lamp drive voltage is 112V ... IMP
Original
datasheet

71 pages,
1006.54 Kb

flyback high-voltages flyback PCB layout sony IMP525EMA IMP525ESA IMP527 IMP528 IMP560 Panasonic Semiconductor Selection Guide la 4620 pinout IMP803LG IMP803 sony lcd tv circuit diagram free sony lcd tv SCHEMATIC DIAGRAM free free TEXT
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Abstract: ±2.5V) Avd Tmin. Tamb. Tmax. High Level Output Voltage (V id = 1V) VOH RL = 600 RL = 150 RL = , Flatness (f = DC to 6MHz, AVCL = 10dB) Total Harmonic Distortion (f = 1kHz, Vo = ±2.5V, RL = 600 , capacitor very close to the device and 10uF capacitor. · To provide low inductance and low resistance , . · Choose component sizes as small as possible (SMD). · On output, decrease capacitor load so as to , 80 60 40 1.5 1.0 20 0.5 1k 10k 100k 1M Fre quency (Hz) 6/9 10M ... STMicroelectronics
Original
datasheet

9 pages,
91.37 Kb

TSH93I TSH93 op-amp 15mhz Datasheet 110v to 5v dc schematic mexico capacitor 25v 1M TEXT
datasheet frame
Abstract: €¢ Power supply operation at 3.3V or 2.5V • 110mW power consumption (2.5V supply) â , GS2988 GS2988 can be powered from either a 3.3V or a 2.5V supply. Power consumption is typically 110mW using a 2.5V power supply. The GS2988 GS2988 is Pb-free, and the encapsulation compound does not contain halogenated , VCC Power Most positive power supply connection. Connect to 3.3V or 2.5V. GS2988 GS2988 , Characteristics VCC = 3.3V ±5% or 2.5V ±5%; TA = -40°C to +85°C, unless otherwise shown Parameter Min ... GENNUM
Original
datasheet

17 pages,
589.41 Kb

GS2988 TEXT
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Abstract: Gain (RL = 10k, VO = ±2.5V) Avd Tmin. Tamb. T max. High Level Output Voltage (Vid = 1V) VOH RL = , ±2.5V, RL = 600) Differential Gain (f = 3.58MHz, A VCL = +2, RL = 150) 65 Differential Phase (f = , a 10nF ceramic capacitor very close to the device and 10uF capacitor. · To provide low inductance , capacitor load so as to avoid circuit stability being degraded which may cause oscillation. You can also , 1.5 1.0 0.5 1k 10k 100k 1M Fre que ncy (Hz) COMMON INPUT IMPEDANCE VERSUS FREQUENCY ... STMicroelectronics
Original
datasheet

12 pages,
120.15 Kb

TSH94I TSH94 TEXT
datasheet frame
Abstract: 10k, VO = ±2.5V) Avd Tmin. Tamb. Tmax. High Level Output Voltage (V id = 1V) VOH RL = 600 RL = , ±2.5V, RL = 600) Differential Gain (f = 3.58MHz, AVCL = +2, RL = 150) 65 Differential Phase (f = , points : · Each power supply lead has to be by-passed to ground with a 10nF ceramic capacitor very close to the device and 10uF capacitor. · To provide low inductance and low resistance common return , component sizes as small as possible (SMD). · On output, decrease capacitor load so as to avoid circuit ... STMicroelectronics
Original
datasheet

10 pages,
110.64 Kb

TSH95I TSH95 SO16 wide package op-amp 15mhz Datasheet 110v to 5v dc schematic TEXT
datasheet frame
Abstract: 10k, VO = ±2.5V) Avd Tmin. Tamb. Tmax. High Level Output Voltage (V id = 1V) VOH RL = 600 RL = , ±2.5V, RL = 600) Differential Gain (f = 3.58MHz, AVCL = +2, RL = 150) 65 Differential Phase (f = , points : · Each power supply lead has to be by-passed to ground with a 10nF ceramic capacitor very close to the device and 10uF capacitor. · To provide low inductance and low resistance common return , component sizes as small as possible (SMD). · On output, decrease capacitor load so as to avoid circuit ... STMicroelectronics
Original
datasheet

11 pages,
113.42 Kb

TSH95I TSH95 rip smd B 103 K ceramic capacitor TEXT
datasheet frame
Abstract: current limited and can deliver an output current up to 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100uA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both , C OSC An external capacitor connected to GND fixes the switching frequency. 19 VCC , 100uA, COSC = 0V 10 22 34 uA VVA-OUT = 4V, VRMS = 2V, VMULTOUT = 0, VLFF = 2.5V COSC = ... STMicroelectronics
Original
datasheet

17 pages,
227.94 Kb

diode P600M DC Datasheet L4981 B1ET3411A 501 200w L4981X L4981XD larcet 3KW GENERATOR 200w power amplifier circuit diagram SO20 DIP20 Zener 5.1V L4981B p600m DIODE L4981A L4981B L4981 PFC L4981A L4981B 3kw pfc L4981A L4981B L4981 L4981A L4981B 12v to Amplifier 200w circuit diagrams L4981A L4981B L4981A L4981A L4981B PFC 3kw TEXT
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Abstract: function · Excellent output eye quality · Power supply operation at 3.3V or 2.5V · 110mW power consumption (2.5V supply) · Operating temperature range: -40°C to +85°C · Small , the GS2989 GS2989. The GS2989 GS2989 can be powered from either a 3.3V or a 2.5V supply. Power consumption is typically 110mW using a 2.5V power supply with one output enabled. new dual-output pin out use the , supply connection for the input buffer and core. Connect to 3.3V or 2.5V. 2, 3 DDI, DDI Input ... GENNUM
Original
datasheet

19 pages,
599.56 Kb

M0220 52070 GS2978 424M GS2989-INTE3 Gennum GS2988 gennum GS2988 device GS2988 GS2989 Gennum GS2989 GS2989-INE3 TEXT
datasheet frame
Abstract: or 2.5V • 110mW power consumption (2.5V supply) • Operating temperature range: -40°C , is present at the output of the GS2989 GS2989. The GS2989 GS2989 can be powered from either a 3.3V or a 2.5V supply. Power consumption is typically 110mW using a 2.5V power supply with one output enabled. new , supply connection for the input buffer and core. Connect to 3.3V or 2.5V. 2, 3 DDI, DDI Input , Electrical Characteristics VCC = 3.3V ±5% or 2.5V ±5%; TA = -40°C to +85°C, unless otherwise shown ... GENNUM
Original
datasheet

19 pages,
647.96 Kb

GS2989 TEXT
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Archived Files

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+ 2.5V) T min. 3 T amb. 3 T max. 57 54 70 dB V OH High Level Output Voltage (V id = 1V) R L = 600 2.5V, R L = 600 W ) 0.01 % D G Differential Gain (f = 3.58MHz, A VCL = +2, R L = 150 W ) 0.03 % D j to ground with a 10nF ceramic capacitor very close to the device and 10 m F capacitor. w To On output, decrease capacitor load so as to avoid circuit stability being degraded which may 1.5 1.0 0.5 1k 10k 100k 1M 10M
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5274.htm
STMicroelectronics 20/10/2000 12.78 Kb HTM 5274.htm
2.5V) T min. 3 T amb. 3 T max. 57 54 70 dB V OH High Level Output Voltage (V id = 1V) R L = 600 W R L Flatness (f = DC to 6MHz, A VCL = 10dB) 0.1 dB THD Total Harmonic Distortion (f = 1kHz, V o = + 2.5V, R L to ground with a 10nF ceramic capacitor very close to the device and 10 m F capacitor. w To On output, decrease capacitor load so as to avoid circuit stability being degraded which may 1.5 1.0 0.5 1k 10k 100k 1M 10M
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5274-v1.htm
STMicroelectronics 02/04/1999 10.29 Kb HTM 5274-v1.htm
Signal Voltage Gain (R L = 10k W , V O = + 2.5V) T min. 3 T amb. 3 T max. 57 54 70 dB V OH High Level Harmonic Distortion (f = 1kHz, V o = + 2.5V, R L = 600 W ) 0.01 % D G Differential Gain (f = 3.58MHz, A Each power supply lead has to be by-passed to ground with a 10nF ceramic capacitor very close to the device and 10 m F capacitor. w To provide low inductance and low resistance common return component sizes as small as possible (SMD). w On output, decrease capacitor load so as to avoid
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5274-v2.htm
STMicroelectronics 14/06/1999 10.19 Kb HTM 5274-v2.htm
3 T max. 60 50 75 dB A vd Large Signal Voltage Gain (R L = 10k W , V O = + 2.5V) T min. 3 T amb. 10dB) 0.1 dB THD Total Harmonic Distortion (f = 1kHz, V o = + 2.5V, R L = 600 W ) 0.01 % D G points : w Each power supply lead has to be by-passed to ground with a 10nF ceramic capacitor very close to the device and 10 m F capacitor. w To provide low inductance and low resistance common component sizes as small as possible (SMD). w On output, decrease capacitor load so as to avoid
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5243-v2.htm
STMicroelectronics 14/06/1999 13.2 Kb HTM 5243-v2.htm
3 T max. 60 50 75 dB A vd Large Signal Voltage Gain (R L = 10k W , V O = + 2.5V) T min. 3 T amb. 10dB) 0.1 dB THD Total Harmonic Distortion (f = 1kHz, V o = + 2.5V, R L = 600 W ) 0.01 % D G points : w Each power supply lead has to be by-passed to ground with a 10nF ceramic capacitor very close to the device and 10 m F capacitor. w To provide low inductance and low resistance common component sizes as small as possible (SMD). w On output, decrease capacitor load so as to avoid
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5243-v1.htm
STMicroelectronics 02/04/1999 13.24 Kb HTM 5243-v1.htm
3 T max. 60 50 75 dB A vd Large Signal Voltage Gain (R L = 10k W , V O = + 2.5V) T min. 3 T amb. 10dB) 0.1 dB THD Total Harmonic Distortion (f = 1kHz, V o = + 2.5V, R L = 600 W ) 0.01 % D G points : w Each power supply lead has to be by-passed to ground with a 10nF ceramic capacitor very close to the device and 10 m F capacitor. w To provide low inductance and low resistance common component sizes as small as possible (SMD). w On output, decrease capacitor load so as to avoid
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/5243.htm
STMicroelectronics 20/10/2000 15.97 Kb HTM 5243.htm
limited and can deliver an output current up to 10mA. 12 SS A capacitor connected to ground defines the soft start time. An internal current generator delivering 100 m A (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both in C OSC . 18 C OSC An external capacitor connected to GND fixes the switching frequency. 19 V CC 22 34 m A V VA-OUT = 4V, V RMS = 2V, V MULTOUT = 0, V LFF = 2.5V C OSC = 0V, I AC = 200 m A 20 37 54
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1366-v2.htm
STMicroelectronics 14/06/1999 20.94 Kb HTM 1366-v2.htm
current for capacitor C T through resistor R T . UC2842A/3A/4A/5A UC2842A/3A/4A/5A - UC3842A/3A/4A/5A UC3842A/3A/4A/5A 2/15 ELECTRICAL Voltage T j = 25 5 C I o = 1mA 4.95 5.00 5.05 4.90 5.00 5.10 V D V REF Line Regulation 12V 3 V i 3 25V 2 12V to 25V - 0.2 1 - 0.2 1 % D f OSC / D T Frequency Change with Temp. T A = T low to T high - 5 - - 5 OSC =2V) T J = 255C 7.8 8.3 8.8 7.8 8.3 8.8 mA ERROR AMP SECTION V 2 Input Voltage V PIN1 = 2.5V 2.45 V i 3 25V 60 70 60 70 dB I o Output Sink Current V PIN2 = 2.7V V PIN1 = 1.1V 2 12 2 12 mA I o
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4298.htm
STMicroelectronics 20/10/2000 19.35 Kb HTM 4298.htm
provides charging current for capacitor C T through resistor R T . UC2842A/3A/4A/5A UC2842A/3A/4A/5A - UC3842A/3A/4A/5A UC3842A/3A/4A/5A 5.05 4.90 5.00 5.10 V D V REF Line Regulation 12V 3 V i 3 25V 2 20 2 20 mV D V REF Load Change with Volt. V CC = 12V to 25V - 0.2 1 - 0.2 1 % D f OSC / D T Frequency Change with Temp. SECTION V 2 Input Voltage V PIN1 = 2.5V 2.45 2.50 2.55 2.42 2.50 2.58 V I b Input Bias Current V T J = 255C 0.7 1 0.7 1 MHz PSRR Power Supply Rejec. Ratio 12V 3 V i 3 25V 60 70 60 70 dB
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4298-v3.htm
STMicroelectronics 25/05/2000 17.87 Kb HTM 4298-v3.htm
bridges are enabled 7 TRI_cap Triangular wave generation circuit capacitor. The value of this capacitor Input for external charge pump capacitor 12 V BOOT Overvoltage input for driving of the upper DMOS 13 Vref = 2.5V I 0 /I 1 /I 2 /I 3 = L 123 134 mV V offset Current Loop Offset Vref = 2.5V I 0 /I 1 /I 2 /I frequency of the output, and can be ad - justed by changing the capacitor connected at TR1_CAP pin : F ref = The value suggested for the capacitors are: C boot Storage Capacitor 100 nF C P Pump Capacitor 10 nF
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4588-v1.htm
STMicroelectronics 02/04/1999 35.02 Kb HTM 4588-v1.htm