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HS2-2622RH-Q Dataheets PDF



Part Number HS2-2622RH-Q
Manufacturers Intersil Corporation
Logo Intersil Corporation
Description Radiation Hardened/ Very Wideband/ High Input Impedance Uncompensated Operational Amplifiers
Datasheet HS2-2622RH-Q DatasheetHS2-2622RH-Q Datasheet (PDF)

HS-2620RH, HS-2622RH Data Sheet August 1999 File Number 4014.1 Radiation Hardened, Very Wideband, High Input Impedance Uncompensated Operational Amplifiers HS-2620RH and HS-2622RH are radiation hardened bipolar operational amplifiers that feature very high input impedance coupled with wideband AC performance. The high resistance of the input stage is complemented by low offset voltage (4mV Max at 25oC for HS-2620RH) and low bias and offset current (15nA Max at 25oC for HS-2620RH) to facilitate a.

  HS2-2622RH-Q   HS2-2622RH-Q


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HS-2620RH, HS-2622RH Data Sheet August 1999 File Number 4014.1 Radiation Hardened, Very Wideband, High Input Impedance Uncompensated Operational Amplifiers HS-2620RH and HS-2622RH are radiation hardened bipolar operational amplifiers that feature very high input impedance coupled with wideband AC performance. The high resistance of the input stage is complemented by low offset voltage (4mV Max at 25oC for HS-2620RH) and low bias and offset current (15nA Max at 25oC for HS-2620RH) to facilitate accurate signal processing. Offset voltage can be reduced further by means of an external nulling potentiometer. Closed loop gains greater than 5, the 25V/µs minimum slew rate at 25oC and the 100kV/V minimum open loop gain at 25oC, enables the HS-2620RH to perform high gain amplification of very fast, wideband signals. These dynamic characteristics, coupled with fast settling times, make these amplifiers ideally suited to pulse amplification designs as well as high frequency or video applications. The frequency response of the amplifier can be tailored to exact design requirements by means of an external bandwidth control capacitor. Other high performance designs such as high gain, low distortion audio amplifiers, high-Q and wideband active filters and high speed comparators are excellent uses of this part. Specifications for Rad Hard QML devices are controlled by the Defense Supply Center in Columbus (DSCC). The SMD numbers listed here must be used when ordering. Detailed Electrical Specifications for these devices are contained in SMD 5962-95688. A “hot-link” is provided on our homepage for downloading. www.intersil.com/spacedefense/space.asp Features • Electrically Screened to SMD # 5962-95688 • QML Qualified per MIL-PRF-38535 Requirements • High Input Impedance (HS-2620RH) . . . . . . . 65MΩ (Min) • High Gain (HS-2620RH) . . . . . . . . . . . . . . . . 100kV/V (Min) 150kV/V (Typ) • High Slew Rate (HS-2620RH) . . . . . . . . . . . . . . 25V/µs (Min) 35V/µs (Typ) • Low Input Bias Current (HS-2620RH) . . . . . . . 15nA (Max) 5nA (Typ) • Low Input Offset Voltage (HS-2620RH) . . . . . . 4mV (Max) • Wide Gain Bandwidth Product (AV ≥ 5) . . . . . .100MHz (Typ) • Output Short Circuit Protection • Total Dose . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 x 104 RAD(Si) Applications • Video and RF Amplifiers • Pulse Amplifiers • Audio Amplifiers and Filters • High-Q Active Filters • High Speed Comparators Ordering Information ORDERING NUMBER 5962D9568801VGA 5962D9568801VPA 5962D9568801VPC 5962D9568802VGA 5962D9568802VPA 5962D9568802VPC INTERNAL MKT. NUMBER HS2-2620RH-Q HS7-2620RH-Q HS7B-2620RH-Q HS2-2622RH-Q HS7-2622RH-Q HS7B-2622RH-Q TEMP. RANGE (oC) -55 to 125 -55 to 125 -55 to 125 -55 to 125 -55 to 125 -55 to 125 Pinouts HS7-2620RH, HS7-2622RH (CERDIP) GDIP1-T8 OR HS7B-2620RH, HS7B-2622RH (SBDIP) CDIP2-T8 TOP VIEW BAL -IN +IN V1 2 3 4 8 COMP V+ OUT BAL IN2 BAL 1 HS2-2620RH, HS2-2622RH (CAN) MACY1-X8 TOP VIEW COMP 8 7 V+ + 7 6 5 + 3 4 V5 6 OUT IN+ BAL 1 CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures. 1-888-INTERSIL or 321-724-7143 | Copyright © Intersil Corporation 1999 HS-2620RH, HS-2622RH Test Circuit 400 1.6K ACOUT +VCC 0.1 100K 1 OPEN 2 S3A S1 OPEN 2 S2 OPEN 2 100K 2 1 OPEN S3B 2 1 1 1 2 1 S7 OPEN 1 3 RAL 2 ADJ 2 500K DUT + OPEN 1 2K VAC 50 0.1 1 -VEE x2 5K 2 1 50K S4 ALL RESISTORS = ± 1% (Ω) ALL CAPACITORS = ± 10% (µF) EOUT S5B 1 S8 2 10K OPEN 3 1 S9 2 V2 BUFFER 50pF (NOTE) FOR LOOP STABILITY, USE MIN VALUE CAPACITOR TO PREVENT OSCILLATION 50K -1/10 V1 S5A 1 S6 +1 + - 100 100 NOTE: Includes stray capacitances. FIGURE 1. TEST LOOP FOR THE HS-2620RH AND THE HS-2622RH Test Circuits and Waveforms VAC IN + 50Ω VAC OUT 1.6K - 50pF 400Ω FIGURE 2. SIMPLIFIED TEST CIRCUIT +5.0V +1.0V INPUT -1.0V +SL -SL -1.0V ∆T SR = +1.0V -5.0V ∆V ∆T ∆T ∆V OUTPUT ∆V +5.0V -5.0V FIGURE 3. SLEW RATE WAVEFORM VFINAL = +200mV +40mV INPUT 0V tr, +OS tf, -OS -40mV tr tf 0V VPEAK 90% OUTPUT 10% 0V 90% -200mV 0V 10% VPEAK NOTE: Measured on both positive and negative transitions. Capacitance at Compensation pin should be minimized. FIGURE 4. OVERSHOOT, RISE AND FALL TIME WAVEFORMS 2 HS-2620RH, HS-2622RH Burn-In Circuits HS7-2620RH CERDIP HS7-2622RH CERDIP HS2-2620RH (TO-99) METAL CAN HS2-2622RH (TO-99) METAL CAN 1 R1 2 3 VD2 4 C2 + 8 7 6 5 2 C3 C V+ D1 1 8 7 + 3 4 5 6 R1 C2 VD2 NOTES: 1. R1 = 1MΩ, ±5%, 1/4W (Min) 2. C1 = C2 = 0.01µF/Socket (Min) of 0.1µF/Row (Min) 3. C3 = 0.01µF/Socket (10%) 4. D1 = D2 = IN4002 or Equivalent/Board 5. I(V+) - (V -)I = 31V ±1V Irradiation Circuit C 1 2 R 3 V2 4 C 5 6 8 C 7 V1 GND NOTES: 6. V1 = +15V ±10% 7. V2 = -15V ±10% 8. R = 1MΩ ±5% 9. C = 0.1µF ±10% 3 HS-2620RH, HS-2622RH Schematic Diagram COMPENSATION V+ BAL R1 1K Q1 Q3 Q4 Q37 Q5 +INPUT Q11 Q8 Q13 Q12 Q16 R7 1.35 R19 2.5K RP1 R8 1K Q20 R9 4.5K R10 2.0K Q6 Q30 Q7 Q9 Q44 Q10 Q17 Q18 Q15 Q27 Q24 Q46 R11 4.0K Q21 Q22 Q23 Q49 Q50 Q51 C1 16pF R12 1.6K R13 1.6K R14 2..


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