OP467 Analog Devices, OP467 Datasheet
OP467
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OP467 Summary of contents
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... OP467 usable in applications such as high speed detectors and instrumentation. The OP467 is specified for operation from ± ±15 V over the extended industrial temperature range (−40°C to +85°C) and is available in a 14-lead PDIP, a 14-lead CERDIP, a 16-lead SOIC, and a 20-terminal LCC ...
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... Saturation Recovery Time ......................................................... 14 High Speed Instrumentation Amplifier .................................. 14 2 MHz Biquad Band-Pass Filter ............................................... 15 Fast I-to-V Converter ................................................................ 16 OP467 SPICE Marco-Model ..................................................... 17 Outline Dimensions ....................................................................... 19 Ordering Guide .......................................................................... 20 3/04—Rev Rev. E Changes to TPC 1 .............................................................................. 5 Changes to Ordering Guide ............................................................. 4 Updated Outline Dimensions ....................................................... 16 4/01—Rev Rev. D Footnote added to Power Supply ...
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... L 125 170 350 2.7 200 45 2.0 1.0 0.15 6 0.8 OP467 Max Unit 0 600 nA 700 nA 100 nA 150 μV/°C pA/°C 750 μ ±18 V MHz V/μs V/μs ...
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... OP467 @ V = ±5 25°C, unless otherwise noted Table 2. Parameter Symbol INPUT CHARACTERISTICS Offset Voltage V OS Input Bias Current I B Input Offset Current I OS Common-Mode Rejection CMR CMR Large Signal Voltage Gain A Offset Voltage Drift ΔV Bias Current Drift ΔI OUTPUT CHARACTERISTICS ...
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... V CM PSRR V = ±4 ± kΩ kΩ ∞ Rev. | Page OP467 Limit Unit ±0.5 mV max 600 nA max 100 nA max ±12 V min/max 80 dB min 96 dB min 83 dB min ±13.0 V min 10 mA max ...
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... Output Short-Circuit Duration Storage Temperature Range 14-Lead CERDIP and 20-Terminal LCC 14-Lead PDIP and 16-Lead SOIC Operating Temperature Range OP467A OP467G Junction Temperature Range 14-Lead CERDIP and 20-Terminal LCC 14-Lead PDIP and 16-Lead SOIC Lead Temperature (Soldering, 60 sec) 1 Absolute maximum ratings apply to both DICE and packaged parts, unless otherwise noted ...
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... FREQUENCY (Hz) Figure 9. Closed-Loop Output Impedance vs. Frequency V = ± ±15V S 1M FREQUENCY (Hz) Figure 10. Gain Error vs. Frequency VCL V = ±15V 25° 2kΩ 10k 100k 1M FREQUENCY (Hz) Figure 11. Maximum V Swing vs. Frequency OUT OP467 = +10 VCL VCL 1M 3.4 5.8 10M A = –1 VCL 10M ...
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... OP467 ± 25° 2kΩ VCL 8 A VCL 10k 100k FREQUENCY (Hz) Figure 12. Maximum V Swing vs. Frequency OUT 120 100 10k 100k 1k FREQUENCY (Hz) Figure 13. Common-Mode Rejection vs. Frequency 120 100 100 1k 10k FREQUENCY (Hz) Figure 14. Power-Supply Rejection vs. Frequency = – ...
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... TIME (ns) Figure 21. Settling Time, Negative Edge V = ±15V ± 50pF L 100 200 300 400 TIME (ns) Figure 22. Settling Time, Positive Edge T = 25°C A ±5 ±10 ±15 SUPPLY VOLTAGE (V) Figure 23. Input Voltage Range vs. Supply Voltage OP467 500 500 ±20 ...
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... OP467 ±15V ± 10kΩ 50pF –10 –20 –30 –40 –50 10k 100k 1M FREQUENCY (Hz) Figure 24. Noninverting Gain vs. Supply Voltage ±15V 25° POSITIVE SWING 8 6 NEGATIVE SWING 100 LOAD RESISTANCE (Ω) Figure 25 ...
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... Figure 33. Slew Rate vs. Temperature V = ±15V 2kΩ –1 VCL –SR +SR –50 – 100 TEMPERATURE (°C) Figure 34. Slew Rate vs. Temperature VCL +SR –SR –50 – 100 TEMPERATURE (°C) Figure 35. Slew Rate vs. Temperature OP467 125 125 = ±15V = 2kΩ 125 ...
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... OP467 10 8 0. –2 –4 0.1% –6 0.1% –8 –10 0 100 200 SETTLING TIME (ns) Figure 36. Output Step vs. Settling Time +125° +25° –55° ±5 ±10 SUPPLY VOLTAGE (V) Figure 37. Supply Current vs. Supply Voltage 5 200 R = 5kΩ ...
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... APPLICATIONS INFORMATION OUTPUT SHORT-CIRCUIT PERFORMANCE To achieve a wide bandwidth and high slew rate, the OP467 output is not short-circuit protected. Shorting the output to ground or to the supplies may destroy the device. For safe operation, the output load current should be limited so that the junction temperature does not exceed the absolute maximum junction temperature ...
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... HIGH SPEED INSTRUMENTATION AMPLIFIER The OP467 performance lends itself to a variety of high speed applications, including high speed precision instrumentation amplifiers. Figure 44 represents a circuit commonly used for data acquisition, CCD imaging, and other high speed applications. 200µs The circuit gain is set by R ...
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... OP467 V –10 ERROR TO SCOPE –20 –30 –40 Rev. | Page 1kΩ C1 50pF R2 R4 2kΩ 2kΩ R1 3kΩ R3 2kΩ 1/4 R5 OP467 2kΩ 1/4 OP467 V OUT IN Figure 48. 2 MHz Biquad Filter 0 10k 100k 1M 10M FREQUENCY (Hz) Figure 49. Biquad Filter Response OP467 C2 50pF 1/4 OP467 100M ...
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... FAST I-TO-V CONVERTER The fast slew rate and fast settling time of the OP467 are well suited to the fast buffers and I-to-V converters used in a variety of applications. The circuit in Figure unipolar quad DAC consisting of only two ICs. The current output of the DAC8408 is converted to a voltage by the OP467 configured as an I-to-V converter ...
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... L1 50E–6 1 GO1 GO2 MODELS USED * . MODEL QN NPN (BF=33.333E3) . MODEL MODEL DY D (BV=50) . ENDS OP467 Rev. | Page POLY (2) (1, 20) (2,20 1E6 119 13 14 126 . 721E– 1E6 398E–15 ...
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... OP467 99 RMP1 R10 RMP2 REF – Figure 54. SPICE Macro-Model Output Stage 99 99 G01 V3 + – R01 2 N– – R02 N+ G5 G02 50 50 Rev. | Page – ...
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... REFERENCE ONLY AND ARE NOT APPROPRIATE FOR USE IN DESIGN. Figure 57. 14-Lead Ceramic Dual In-Line Package [CERDIP] (Q-14) Y-Suffix Dimensions shown in inches and (millimeters) Rev Page 0.325 (8.26) 0.310 (7.87) 0.300 (7.62) 0.195 (4.95) 0.130 (3.30) 0.115 (2.92) 0.014 (0.36) 0.010 (0.25) 0.008 (0.20) 0.430 (10.92) MAX 0.320 (8.13) 0.290 (7.37) 0.015 (0.38) 15° 0.008 (0.20) 0° OP467 ...
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... OP467GPZ −40°C to +85°C OP467GS −40°C to +85°C OP467GS-REEL −40°C to +85°C OP467GSZ −40°C to +85°C OP467GSZ-REEL −40°C to +85°C OP467ARC/883C −55°C to +125°C OP467AY/883C −55°C to +125°C OP467GBC RoHS Compliant Part. ...