NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS

Datasheet Archive - Datasheet Search Engine

 

45v variable Power Supply Schematic Diagram

Catalog Datasheet Results Type PDF Document Tags
Abstract: Gain & Return Loss RESPONSE (dB) -3.1 Variable Gain Amplifier - SMT 25 Vctrl = -4.5V , HMC996LP4E HMC996LP4E v00.0511 Variable Gain Amplifier 5 to 12 GHz 0 Features The HMC996LP4E HMC996LP4E is ideal for: Variable Gain Amplifier - SMT Typical Applications Wide Gain Control Range: 22 dB · Point-to-Point Radio Single Control Voltage: -1 to -4.5V · Point-to-Multi-Point Radio , Package: 16 mm2 Functional Diagram General Description The HMC996LP4E HMC996LP4E is a GaAs PHEMT MMIC analog ... Original
datasheet

8 pages,
443.46 Kb

x-band power amplifier HMC996 HMC996LP4E HMC996LP4E abstract
datasheet frame
Abstract: Variable Gain Amplifier - SMT Gate Bias Voltage (Vgg1, 2) Gain Control Voltage (Vctrl) RF Power Input , HMC996LP4E HMC996LP4E v01.0112 VARIABLE GAIN AMPLIFIER 5 - 12 GHz Typical Applications The HMC996LP4E HMC996LP4E is ideal for: Features Wide Gain Control Range: 22 dB Single Control Voltage: -1 to -4.5V Output IP3 @ , 4x4 mm SMT Package: 16 mm2 Variable Gain Amplifier - SMT · Point-to-Point Radio · Point-to-Multi-Point Radio · EW & ECM Subsystems · X-Band Radar · Test Equipment & Sensors Functional Diagram ... Original
datasheet

8 pages,
418.4 Kb

x-band power amplifier x-band mmic HMC996LP4E HMC996LP4E abstract
datasheet frame
Abstract: Diagram General Description The HMC996LP4E HMC996LP4E is a GaAs PHEMT MMIC analog variable gain amplifier and / or , -40C Output IP3 vs. Temperature 40 Vctrl=-4.5V, Pout=7 dBm/tone 35 0 Variable Gain Amplifier - , HMC996LP4E HMC996LP4E v01.0112 Variable Gain Amplifier 5 to 12 GHz 0 Variable Gain Amplifier - SMT , : 22 dB Single Control Voltage: -1 to -4.5V Output IP3 @ Max Gain: +34 dBm Output P1dB: +22 dBm Low , maximum gain, while requiring only 170 mA from a +5V supply. Gain control voltage pin (Vctrl) is provided ... Original
datasheet

8 pages,
775.75 Kb

x-band power amplifier HMC996LP4E HMC996LP4E abstract
datasheet frame
Abstract: requiring only 170 mA from a +5V supply. A gain control voltage (Vctrl) is provided to allow variable gain , (IP3) 31 30 dBm Total Supply Current (Idd) 170 170 mA *Set Vctrl = -4.5V and , HMC997LC4 HMC997LC4 v00.0511 Variable Gain Amplifier 17 to 27 GHz 0 Features The HMC997LC4 HMC997LC4 is ideal for: Variable Gain Amplifier - SMT Typical Applications Wide Gain Control Range: 15 dB , 24 Lead 4x4 mm SMT Package: 16 mm2 · Test Equipment General Description Functional Diagram ... Original
datasheet

8 pages,
449.23 Kb

variable gain amplifier GHz H997 HMC997LC4 HMC997LC4 abstract
datasheet frame
Abstract: v01.0112 VARIABLE GAIN AMPLIFIER 17 - 27 GHz Gain vs. Control Voltage Range 25 Vctl = -4.5V Vctl = , HMC997LC4 HMC997LC4 v01.0112 VARIABLE GAIN AMPLIFIER 17 - 27 GHz Typical Applications The HMC997LC4 HMC997LC4 is , dBm Output P1dB: +24 dBm No External Matching 24 Lead 4x4 mm SMT Package: 16 mm2 Variable Gain , · Test Equipment Functional Diagram General Description The HMC997LC4 HMC997LC4 is a GaAs MMIC PHEMT analog variable gain amplifier and / or driver amplifier which operates between 17 and 27 GHz. Ideal for ... Original
datasheet

8 pages,
423.56 Kb

HMC997LC4 HMC997LC4 abstract
datasheet frame
Abstract: HMC997LC4 HMC997LC4 v01.0112 Variable Gain Amplifier 17 to 27 GHz Typical Applications The HMC997LC4 HMC997LC4 is , dBm Output P1dB: +24 dBm No External Matching 24 Lead 4x4 mm SMT Package: 16 mm2 Variable Gain , · Test Equipment Functional Diagram General Description The HMC997LC4 HMC997LC4 is a GaAs MMIC PHEMT analog variable gain amplifier and / or driver amplifier which operates between 17 and 27 GHz. Ideal for , , and up to +31 dBm of output IP3 at maximum gain, while requiring only 170 mA from a +5V supply. A gain ... Original
datasheet

8 pages,
424.33 Kb

variable capacitor price list HMC997LC4 HMC997LC4 abstract
datasheet frame
Abstract: = 2-25V - 15V ' FIG. 2 EXTERNAL POWER SUPPLY I FX3090 FX3090 , and Output Filters * Flexible Low-current Power Supply Requirements Built to Rigorous Mechanical , supply voltage: +4.5V to +7.5V Dynamic range specified at +5.V Analog supply: Absolute maximum working voltage: 30V (ie +15) Minimum supply voltage: 4.5V Dynamic range specified at 5V Clockwidth.: 1 ys to 40 , decoupling capacitors, the filters can operate from a single power supply. Also, because the Encoder and ... OCR Scan
datasheet

8 pages,
231.3 Kb

FX3090 FX309 CVSD modulator CVSD decoder DELTA MODULATION ENCODER DELTA MODULATION ENCODER AND DECODER eurocom D/3090/2 D/3090/2 abstract
datasheet frame
Abstract: Gate Supply Voltage, Vg Drain Current, Idq CW Input Power, Pin Channel Temperature, Tch Storage , ] 22 24 26 Figure 3. Output Power [2H] vs. Output Freq. at variable Pin Figure 4. , 80 -11 -9 -7 -5 -3 -1 1 3 5 Input Power [1H] (dBm) 7 9 11 Vg=-1.2V, Vd=4.5V Vg=-1.2V, Vd=5.0V , , Vd=4.5V Vg=-1.4V, Vd=5.0V -5 -3 -1 1 3 Input Power [1H] (dBm) 5 7 9 11 -9 -7 -5 , , Vd=5.0V Vg=-1.4V, Vd=4.5V Vg=-1.4V, Vd=5.0V -9 -7 -5 -3 -1 1 3 Input Power [1H] (dBm) 5 ... Original
datasheet

7 pages,
347.76 Kb

8-24 GHZ X2 MULTIPLIER AMMP-6120 AMMP-6120 abstract
datasheet frame
Abstract: 0dBm Pin=+2dBm Pin=+4dBm Figure 3. Output Power [2H] vs. Output Freq. at variable Pin Figure 4. , 100 90 80 -11 -9 -7 -5 -3 -1 1 3 5 Input Power [1H] (dBm) 7 9 11 Vg=-1.2V, Vd=4.5V Vg=-1.2V, Vd=5.0V , , Vd=4.5V Vg=-1.4V, Vd=5.0V 40 45 -11 -9 -7 -5 -3 -1 1 3 Input Power [1H] (dBm) 5 7 , 20 18 16 Output Power [2H] (dBm) 14 12 10 8 6 4 2 0 -11 Vg=-1.2V, Vd=4.5V Vg=-1.2V, Vd=5.0V Vg=-1.4V , , Vd=4.5V Vg=-1.2V, Vd=5.0V Vg=-1.4V, Vd=4.5V Vg=-1.4V, Vd=5.0V -9 -7 -5 -3 -1 1 3 Input Power ... Original
datasheet

7 pages,
240.8 Kb

opt 300 AMMP-6120 AMMP-6120 abstract
datasheet frame
Abstract: characteristics and waveforms can be easily measured. Figure 2: Schematic Diagram �07 Fairchild , Manual February 2007 1: Connect Battery (2.7 to 4.5V) and Gnd (0V). 2: To verify supply current , FAN4855 FAN4855 FAN4855 FAN4855 Evaluation Board User Manual Input voltage range is from 1.6V to 4.5V Output voltage range is from 3V to 5V 500mA maximum load current capability 95% efficient power conversion Variable on-time Pulse Frequency Modulation (PFM) Internal synchronous rectifier (no need for external ... Original
datasheet

3 pages,
288.98 Kb

016w FAN4855MTCX FAN4855MTC FAN4855 8-pin header SCHEMATIC DIAGRAM Header HDR1X2 HDR1X2 All Type Of IC Pin Diagram Manual inductor 10uH capacitor 47uF TANTALUM capacitor 47uF capacitor 18pF FAN4855 abstract
datasheet frame

Datasheet Content (non pdf)

Abstract Saved from Date Saved File Size Type Download
Over 1.1 million files (1986-2014): html articles, reference designs, gerber files, chemical content, spice models, programs, code, pricing, images, circuits, parametric data, RoHS data, cross references, pcns, military data, and more. Please note that due to their age, these files do not always format correctly in modern browsers. Disclaimer.
 
shut-down system is also included. TEST CIRCUIT 1/13 SCHEMATIC DIAGRAM PIN CONNECTION THERMAL DATA Symbol C TDA2040 TDA2040 TDA2040 TDA2040 3/13 Figure 1 : Output Power versus Supply Voltage Figure 2 : Output Power versus Supply Voltage Figure 3 : Output Power versus Supply Voltage Figure 4 : Distortion versus Frequency Figure 5 Power Supply Figure 11 : P.C. Board and Components Layout for the Circuit of Figure 10 (1:1 scale : Amplifier with Split Power Supply (see Note) Figure 13 : P.C. Board and Components Layout for the Circuit of
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1460-v2.htm
STMicroelectronics 14/06/1999 10.61 Kb HTM 1460-v2.htm
shut-down system is also included. TEST CIRCUIT 1/13 SCHEMATIC DIAGRAM PIN CONNECTION THERMAL DATA Symbol C TDA2040 TDA2040 TDA2040 TDA2040 3/13 Figure 1 : Output Power versus Supply Voltage Figure 2 : Output Power versus Supply Voltage Figure 3 : Output Power versus Supply Voltage Figure 4 : Distortion versus Frequency Figure 5 Power Supply Figure 11 : P.C. Board and Components Layout for the Circuit of Figure 10 (1:1 scale : Amplifier with Split Power Supply (see Note) Figure 13 : P.C. Board and Components Layout for the Circuit of
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1460.htm
STMicroelectronics 02/04/1999 10.65 Kb HTM 1460.htm
is also included. TEST CIRCUIT 1/13 SCHEMATIC DIAGRAM PIN CONNECTION THERMAL DATA Symbol 5 C TDA2040 TDA2040 TDA2040 TDA2040 3/13 Figure 1 : Output Power versus Supply Voltage Figure 2 : Output Power versus Supply Voltage Figure 3 : Output Power versus Supply Voltage Figure 4 : Distortion Power TDA2040 TDA2040 TDA2040 TDA2040 5/13 Figure 10 : Amplifier with Split Power Supply Figure 11 : P.C. Board and inductive loads protection diodes may be necessary. Figure 12 : Amplifier with Split Power Supply (see
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1460-v1.htm
STMicroelectronics 25/05/2000 12.41 Kb HTM 1460-v1.htm
thermal shut-down system is also included. TEST CIRCUIT 1/13 SCHEMATIC DIAGRAM PIN CONNECTION THERMAL Temperature - 40 to + 150 5 C TDA2040 TDA2040 TDA2040 TDA2040 3/13 Figure 1 : Output Power versus Supply Voltage Figure 2 : Output Power versus Supply Voltage Figure 3 : Output Power versus Supply Voltage Figure 4 : Distortion versus : Amplifier with Split Power Supply Figure 11 : P.C. Board and Components Layout for the Circuit of Figure 10 necessary. Figure 12 : Amplifier with Split Power Supply (see Note) Figure 13 : P.C. Board and Components
www.datasheetarchive.com/files/stmicroelectronics/books/ascii/docs/1460.htm
STMicroelectronics 25/05/2000 12.96 Kb HTM 1460.htm
situation can arise accidentally for a brief period when the main supply source is overloaded. It may also result from a deliberate design decision aimed at reducing the power dissipated in the supply - for small DC load can in such cases behave like a maximum load and the power drained from the supply is the referred to 5V output) Figure 15 : Schematic Block Diagram of a Voltage Regulator with Reset Function. drops to about 6V in very cold wea- ther (figure 1). Figure 1 : Cold Starting Supply Voltage Drop. Using
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1691-v1.htm
STMicroelectronics 02/04/1999 21.11 Kb HTM 1691-v1.htm
power dissipated in the supply - for example, when the device is used as a post regula- tor in ) Figure 15 : Schematic Block Diagram of a Voltage Regulator with Reset Function. APPLICATION NOTE 7 voltage is less than 2V. This situation can arise accidentally for a brief period when the main supply drops to about 6V in very cold wea- ther (figure 1). Figure 1 : Cold Starting Supply Voltage Drop. Using standard regulators with a dropout of 1.7V to 2.1V the minimum 4.75V supply necessary for es-
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1691-v3.htm
STMicroelectronics 25/05/2000 22.91 Kb HTM 1691-v3.htm
situation can arise accidentally for a brief period when the main supply source is overloaded. It may also result from a deliberate design decision aimed at reducing the power dissipated in the supply - for small DC load can in such cases behave like a maximum load and the power drained from the supply is the referred to 5V output) Figure 15 : Schematic Block Diagram of a Voltage Regulator with Reset Function. drops to about 6V in very cold wea- ther (figure 1). Figure 1 : Cold Starting Supply Voltage Drop. Using
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1691-v2.htm
STMicroelectronics 14/06/1999 21.07 Kb HTM 1691-v2.htm
situation can arise accidentally for a brief period when the main supply source is overloaded. It may also result from a deliberate design decision aimed at reducing the power dissipated in the supply - for 1 % referred to 5V output) Figure 15 : Schematic Block Diagram of a Voltage Regulator with Reset : Cold Starting Supply Voltage Drop. Using standard regulators with a dropout of 1.7V to 2.1V the minimum 4.75V supply necessary for es- sential functions such as ignition, injection and elec- tronic
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1691.htm
STMicroelectronics 20/10/2000 23.59 Kb HTM 1691.htm
main build - ing blocks is given here below, with packaging options and complete block diagram. POWER SUPPLY, UVLO and VOLTAGE REFERENCE. The device is provided with an internal stabilised power supply (of supply voltage. As Vcc increases, the Ton time of the power transistor decreases in such a way to + Figure 9. Internal Current Limiting Schematic Diagram. 4.5A 5.4A I O V O D97IN686A D97IN686A D97IN686A D97IN686A A B C MAINS TRANSFORMER POWER SUPPLY, WITH OUTPUT ADJUSTABLE FROM 0V TO 24V . Fig A1 shows a power supply
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5410.htm
STMicroelectronics 20/10/2000 38.57 Kb HTM 5410.htm
given here below, with packaging options and complete block diagram. POWER SUPPLY, UVLO and VOLTAGE REFERENCE. The device is provided with an internal stabilised power supply (of about 12V typ.) that powe rs Current Limiting Schematic Diagram. 4.5A 5.4A I O V O D97IN686A D97IN686A D97IN686A D97IN686A A B C Figure 8. 1. V POWER SUPPLY, WITH OUTPUT ADJUSTABLE FROM 0V TO 24V . Fig A1 shows a power supply including mains input line conditioner is requested. Fixing, for example, the device supply voltage at 50V, the power
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5410-v3.htm
STMicroelectronics 03/10/2000 36.38 Kb HTM 5410-v3.htm