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| (R) HS-2420RH Data Sheet February 2003 FN3554.3 Radiation Hardened Fast Sample and Hold The HS-2420RH is a radiation hardened monolithic circuit consisting of a high performance operational amplifier with its output in series with an ultra-low leakage analog switch and MOSFET input unity gain amplifier. With an external hold capacitor connected to the switch output, a versatile, high performance sample-and-hold or track-andhold circuit is formed. When the switch is closed, the device behaves as an operation amplifier, and any of the standard op amp feedback networks may be connected around the device to control gain, frequency response, etc. When the switch is opened the output will remain at its last level. Performance as a sample-and-hold compares very favorably with other monolithic, hybrid, modular, and discrete circuits. Accuracy to better than 0.01% is achievable over the temperature range. Fast acquisition is coupled with superior droop characteristics, even at high temperatures. High slew rate, wide bandwidth, and low acquisition time produce excellent dynamic characteristics. The ability to operate at gains greater than 1 frequently eliminates the need for external scaling amplifiers. The device may also be used as a versatile operational amplifier with a gated output for applications such as analog switches, peak holding circuits, etc. 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 5962-95669. A "hot-link" is provided on our website for downloading. Features * Electrically Screened to SMD # 5962-95669 * QML Qualified per MIL-PRF-38535 Requirements * Maximum Acquisition Time - 10V Step to 0.1% . . . . . . . . . . . . . . . . . . . . . . . . . . 4s - 10V Step to 0.01% . . . . . . . . . . . . . . . . . . . . . . . . . 6s * Maximum Drift Current . . . . . . . . . . . . . . . . . . . . . . . 10nA (Maximum Over Temperature) * TTL Compatible Control Input * Power Supply Rejection . . . . . . . . . . . . . . . . . . . . . 80dB * Total Dose . . . . . . . . . . . . . . . . . . . . . 100 krad(Si) (Max) * No Latch-Up Applications * Data Acquisition Systems * D to A Deglitcher * Auto Zero Systems * Peak Detector * Gated Op Amp Ordering Information ORDERING NUMBER 5962R9566901VCC INTERNAL MKT. NUMBER HS1B-2420RH-Q TEMP. RANGE (oC) -55 to 125 Functional Diagram OFFSET ADJUST 3 1 + 2 4 V+ 5 Pinout 14 LEAD METAL-SEALED SIDE-BRAZED CERAMIC DIP MIL-STD-1835, CDIP2-T14 TOP VIEW 14 SAMPLE/HOLD CONTROL 13 GND 12 NC 11 HOLD CAPACITOR 10 NC 9 V+ 8 NC SAMPLE/ HOLD CONTROL - INPUT + INPUT - + - 7 OUTPUT IN- 1 IN+ 2 OFFSET ADJUST 3 OFFSET ADJUST 4 V- 5 NC 6 OUTPUT 7 14 HS-2420RH 13 5 11 GND VHOLD CAPACITOR 1 CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures. 1-888-INTERSIL or 321-724-7143 | Intersil (and design) is a registered trademark of Intersil Americas Inc. Copyright (c) Intersil Americas Inc. 2003. All Rights Reserved All other trademarks mentioned are the property of their respective owners. HS-2420RH Test Circuits VDC ALL RESISTORS = 1% ALL CAPACITORS = 10% 100k 10k +VCC -VCC S2 2 S/H 2 1 1 S7 A 1 S4 GND S5 1 OPEN 3 2 100k + NULL AMP X1 X-1 BUFFER DUT - 50 2 1 S1 2 S6 1 2 S7 + 1 50 CH = 1000pF S3 3 2 1 50pF 2k +VCC 1M VAC 50 + ILOAD - AOUT 4 3 EOUT S8 1 2 FIGURE 1. TEST FIXTURE SCHEMATIC (SWITCH POSITIONS S1 - S8 DETERMINE CONFIGURATION) +5V SINEWAVE INPUT IN2 IN1 IN3 IN4 IN5 IN6 IN7 IN8 A2 A1 EN +15V -15V +15V -15V OUT VIN + DUT 2k CH = 1000pF - VOUT 50pF 50 DUT + 2k S/H CH = 1000pF - VOUT 50pF A0 SAMPLE/HOLD CONTROL INPUT NOTE: Compute Hold Mode Feedthrough Attenuation from the Formula: V OUT HOLD FeedthroughAttenuation = 20 log ------------------------------- V IN HOLD Where VOUT HOLD = Peak-Peak Value of Output Sinewave during the Hold Mode. FIGURE 2. HOLD MODE FEEDTHROUGH ATTENUATION NOTE: GBWP is the Frequency of VINPUT at which: V OUT 20 log -------------------- = - 3dB V INPUT FIGURE 3. GAIN BANDWIDTH PRODUCT 2 HS-2420RH Test Circuits (Continued) SEND SAMPLE COMMAND SET t2 TO 7s INITIALLY COURSE tACQ MEASUREMENT LOOP FINE tACQ MEASUREMENT LOOP DIGITIZE V1 AT t1 (10s) INCREMENT t2 BY 50ns (50ns LONGER DELAY) DIGITIZE V2 AT t2 DECREMENT t2 BY 50ns DIGITIZE V1 AT t1 (10s) CALCULATE V1 - V2 IS V 0.01%? YES DIGITIZE V2 AT t2 NO DECREMENT t2 BY 50ns RECORD tACQ YES CALCULATE V1 - V2 IS V 0.01%? NO NOTE: See Test Diagram, Timing Diagram FIGURE 4. ACQUISITION TIME (tACQ TO 0.01% IS SHOWN, tACQ TO 0.1% IS DONE IN THE SAME MANNER) t1 HS-2420RH V1 V1 DIGITIZER + +10V 0V OR 0V -10V S/H CONTROL + 50pF 2k 1000pF t1 V2 V2 DIGITIZER COMPUTER CONTROLLER 10s DELAY t2 VARIABLE DELAY t2 DELAY CONTROL FIGURE 5. 3 HS-2420RH Timing Waveforms 10V VIN (POS tACQ CASE) S/H CONTROL 0V 2V 0V 0.01% OR 0.1% ENVELOPE 10V DUT OUTPUT (POS tACQ CASE) t1 0V (t1 DIGITIZER COMMAND) t1 10s t2 (t2 DIGITIZER COMMAND) t2 FIGURE 6. TIMING DIAGRAM FOR ACQUISITION TIME, (POSITIVE tACQ CASE) +V 0V VPEAK 90% VFINAL 10% INPUT 10% 0V +OS, tR -OS, tF -V tR tF 90% VFINAL VPEAK FIGURE 7A. FIGURE 7B. FIGURE 7. OVERSHOOT, RISE AND FALL TIME WAVEFORMS +V +V +V 75% +V 25% INPUT 25% -V +SL -SL -V -V t t 75% -V FIGURE 8A. FIGURE 8. SLEW RATE WAVEFORMS FIGURE 8B. 4 HS-2420RH Typical Performance Curves 1000 DRIFT DURING HOLD AT 25oC mV/s VSUPPLY = 15VDC , TA = 25oC, CH = 1000pF, Unless Otherwise Specified 1000 LOWER 3dB FREQUENCY = 10Hz OUTPUT NOISE "HOLD" MODE HOLD STEP OFFSET ERROR (mV) 100 mVRMS EQUIV. INPUT NOISE "SAMPLE" MODE - 100K SOURCE RESISTANCE 10 EQUIV. INPUT NOISE "SAMPLE" MODE - 0K SOURCE RESISTANCE 1.0mF 1 10 100 1K 10K 100K 1M 100 UNITY GAIN PHASE MARGIN (DEG) 10 1.0 0.1 UNITY GAIN BANDWIDTH (MHz) MIN SAMPLE TIME SLEW RATE/ FOR 0.1% ACCURACY CHARGE RATE 10V SWINGS (ms) V/(ms) 100pF 1000pF 0.01mF 0.1mF 0.01 10pF CH VALUE BANDWIDTH FIGURE 9. TYPICAL SAMPLE AND HOLD PERFORMANCE vs HOLDING CAPACITOR 1000 OPEN LOOP VOLTAGE GAIN (dB) FIGURE 10. BROADBAND NOISE CHARACTERISTICS 100 80 60 40 20 0 -20 10 100 1K 10K 100K 1M 10M 100M CH = 1.0F CH = 0.1F CH = 0.01F CH = 100pF CH = 1000pF 100 ID (pA) 10 1 -50 -25 0 25 50 TEMPERATURE (oC) 75 100 125 FREQUENCY (Hz) FIGURE 11. DRIFT CURRENT vs TEMPERATURE FIGURE 12. OPEN LOOP FREQUENCY RESPONSE -30 -40 ATTENUATION (dB) -50 -60 -70 -80 -90 OPEN LOOP PHASE ANGLE (DEGREES) 0 20 40 60 80 100 120 140 160 180 200 220 240 10 100 CH = 0.01F CH =1000pF CH = 1.0F CH = 0.1F CH 100pF 100 1K 10K 100K 1M 10M 1K 10K 100K 1M 10M 100M 10V SINUSOIDAL INPUT FREQUENCY (Hz) FREQUENCY (Hz) FIGURE 13. HOLD MODE FEEDTHROUGH ATTENUATION CH = 1000pF FIGURE 14. OPEN LOOP PHASE RESPONSE 5 HS-2420RH Burn-In Circuit HS-2420RH CERDIP -IN +IN OFF ADJ OFF ADJ -V NC OUT S/H CTL 14 GND 13 NC 12 HOLD CAP 11 NC 10 +V NC +15V 9 8 D1 C1 6 7 9 8 V1 V2 GND Irradiation Circuit 1 2 R1 3 4 -15V 5 C2 D2 6 7 1 R 2 3 4 5 14 13 12 GND 11 10 NOTES: R1 = 100k 5% (per socket) C1 = C2 = 0.1F (one per row) or 0.01F (one per socket) D1 = D2 = 1N4002 or equivalent (per board) NOTES: V1 = +15V V2 = -15V R = 100k HOLD STEP VOLTAGE (V) +10 S/H CONTROL V+ +5 -10 -5 +5 +10 CH -5 -10 DC INPUT VOLTAGE (V) CH = 0.1F CH = 10,000pF + HS-2420RH - + - -15 -20 -25 -30 -35 CH = 1000pF -IN CH = 100pF +IN V- OUT 100k OFFSET TRIM (25mV RANGE) FIGURE 15. HOLD STEP vs INPUT VOLTAGE FIGURE 16. BASIC SAMPLE-AND-HOLD (TOP VIEW) 0.002RF RF INPUT +IN HS-2420RH OUT OUTPUT INPUT RI -IN HS-2420RH OUT +IN S/H CONTROL RI OUTPUT -IN RF S/H CONTROL S/H CONTROL INPUT 0.002RI S/H CONTROL INPUT -RF GAIN ~ RI GAIN ~ I + -RF RI FIGURE 17. INVERTING CONFIGURATION FIGURE 18. NONINVERTING CONFIGURATION 6 HS-2420RH Offset and Gain Adjustment Offset Adjustment The offset voltage of the HS-2420RH may be adjusted using a 100k trim pot, as shown in Figure 15. The recommended adjustment procedure is: 1. Apply 0V to the sample-and-hold input, and a square wave to the S/H control. 2. Adjust the trim pot for 0V output in the hold mode. Gain Adjustment The linear variation in pedestal voltage with sample-and-hold input voltage causes a -0.06% gain error (CH = 1000pF). In some applications (D/A deglitcher, A/D converter) the gain error can be adjusted elsewhere in the system, while in other applications it must be adjusted at the sample-and-hold. The two circuits shown below demonstrate how to adjust gain error at the sample-and-hold. The recommended procedure for adjusting gain error is: 1. Perform offset adjustment. 2. Apply the nominal input voltage that should produce a +10V output. 3. Adjust the trim pot for +10V output in the hold mode. 4. Apply the nominal input voltage that should produce a -10V output. 5. Measure the output hold voltage (V-10 NOMINAL). Adjust the trim pot for an output hold voltage of: ( V-10 NOMINAL ) + ( - 10V ) ----------------------------------------------------------------------2 7 HS-2420RH Die Characteristics DIE DIMENSIONS: 97 mils x 61 mils x 19 mils METALLIZATION: Type: Al Thickness: 16kA 2kA GLASSIVATION: Type: Silox Thickness: 14kA 2kA WORST CASE CURRENT DENSITY: 2.0 x 105A/cm2 TRANSISTOR COUNT: 78 PROCESS: Bipolar-Di Metallization Mask Layout HS-2420RH All Intersil U.S. products are manufactured, assembled and tested utilizing ISO9000 quality systems. Intersil Corporation's quality certifications can be viewed at www.intersil.com/design/quality Intersil products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without notice. Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and reliable. However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries. For information regarding Intersil Corporation and its products, see www.intersil.com 8 |
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