5962-9553601QXA National Semiconductor, 5962-9553601QXA Datasheet
5962-9553601QXA
Specifications of 5962-9553601QXA
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5962-9553601QXA Summary of contents
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... Pulse Amplifiers and Peak Detectors ■ CATV/Fiber Optics Signal Processing NS Package Number 5962-9553601QPA 5962F9553601VPA 300 krad(Si) 5962F9553601VHA 300 krad(Si) 5962F9553602VHA 300 krad(Si) 5962-9553601QXA 5962F9553601VXA 300 krad(Si) 5962F9553602VXA 300 krad(Si) 201595 October 21, 2010 = +2: 220 MHz V Package Description J08A 8LD Ceramic Dip ...
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Connection Diagrams 8-Pin Ceramic DIP Top View Simplified Schematic Diagram Note: M1 and M2 are current mirrors. www.national.com 10-Pin Ceramic SOIC & Ceramic Flatpack 20159502 2 20159504 Top View 20159509 ...
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Typical Performance Large Signal Pulse Response ±15V V S 20159501 3 www.national.com ...
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Absolute Maximum Ratings Supply Voltage (V + –V − ) Differential Input Voltage (Note 10) Maximum Power Dissipation (Note Output Short Circuit to Ground (Note Storage Temperature Range Thermal Resistance (Note 13) θ JA 8LD Ceramic Dip (Still Air) 8LD ...
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LM7171 (±15) Electrical Characteristics DC Parameters (Note 5) The following conditions apply, unless otherwise specified. DC 25° +15V, V − = −15V Symbol Parameter V Input Offset Voltage IO +I Input Bias Current ...
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DC Drift Parameters The following conditions apply, unless otherwise specified. DC 25° +15V, V − = −15V Delta calculations performed on QMLV devices at group B , subgroup 5. Symbol Parameter V Input ...
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Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is functional, but do not guarantee specific performance limits. For guaranteed specifications and test conditions, see the ...
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Typical Performance Characteristics Supply Current vs Supply Voltage Input Offset Voltage vs Temperature Short Circuit Current vs Temperature (Sourcing) www.national.com unless otherwise noted, T 20159563 20159565 Short Circuit Current vs Temperature (Sinking) 20159567 8 = 25°C A Supply Current vs ...
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Output Voltage vs Output Current 20159569 CMRR vs Frequency 20159571 PSRR vs Frequency 20159573 Output Voltage vs Output Current PSRR vs Frequency Open Loop Frequency Response 9 20159570 20159572 20159551 www.national.com ...
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Open Loop Frequency Response Gain-Bandwidth Product vs Load Capacitance Large Signal Voltage Gain vs Load www.national.com Gain-Bandwidth Product 20159552 Large Signal Voltage Gain 20159554 Input Voltage Noise 20159556 10 vs Supply Voltage 20159553 vs Load 20159555 vs Frequency 20159557 ...
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Input Voltage Noise vs Frequency 20159558 Input Current Noise vs Frequency 20159560 Slew Rate vs Input Voltage 20159562 Input Current Noise vs Frequency Slew Rate vs Supply Voltage Slew Rate vs Load Capacitance 11 20159559 20159561 20159523 www.national.com ...
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Open Loop Output Impedance vs Frequency Large Signal Pulse Response ±15V S Large Signal Pulse Response ±15V S www.national.com 20159525 = −1, 20159527 = +2, 20159529 12 Open Loop Output Impedance vs ...
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Small Signal Pulse Response A = − ±15V S 20159531 Small Signal Pulse Response ±15V S 20159533 Closed Loop Frequency Response vs Supply Voltage (A = +2) V 20159535 Small Signal ...
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Closed Loop Frequency Response vs Capacitive Load (A = +2) V Closed Loop Frequency Response vs Input Signal Level (A = +2) V Closed Loop Frequency Response vs Input Signal Level (A = +2) V www.national.com Closed Loop Frequency Response ...
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Closed Loop Frequency Response vs Input Signal Level (A = +4) V 20159545 Closed Loop Frequency Response vs Input Signal Level (A = +4) V 20159542 Total Harmonic Distortion vs Frequency (Note 15) 20159547 Closed Loop Frequency Response vs Input ...
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Undistorted Output Swing vs Frequency Harmonic Distortion vs Frequency Maximum Power Dissipation vs Ambient Temperature Note 15: The THD measurement at low frequency is limited by the test instrument. www.national.com Undistorted Output Swing 20159548 20159574 20159520 16 vs Frequency 20159550 ...
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Application Notes LM7171 Performance Discussion The LM7171 is a very high speed, voltage feedback amplifier. It consumes only 6.5 mA supply current while providing a uni- ty-gain bandwidth of 200 MHz and a slew rate of 4100V/μs. It also has ...
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Power Supply Bypassing Bypassing the power supply is necessary to maintain low power supply impedance across frequency. Both positive and negative power supplies should be bypassed individually by placing 0.01 μF ceramic capacitors directly to power supply pins and 2.2 ...
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FIGURE 6. The LM7171 Driving a 150 pF Load with a 50Ω Isolation Resistor Power Dissipation The maximum power allowed to dissipate in a device is de- fined as: )/θ − J(max) A Where PD ...
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Pulse Width Modulator 20159516 Video Line Driver 20 20159521 ...
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Revision History Released Revision 02/04/09 A New Release, Corporate format Section 1 MDS data sheet converted into one Corp. data sheet format. Added ELDRS NSID's to Ordering Information Table. MNLM7171AM-X-RH Rev 0C0 will be archived. 21 Changes www.national.com ...
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Physical Dimensions www.national.com inches (millimeters) unless otherwise noted 10-Lead Ceramic Flatpack NS Package Number W10A 10-Lead Ceramic SOIC NS Package Number WG10A 22 ...
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Dual-In-Line Package NS Package Number J08A 23 www.national.com ...
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