HA17558FP

HA17558 Series Dual Operational Amplifier REJ03D0682-0100 (Previous: ADE-204-042) Rev.1.00 Jun 15, 2005 Description HA17558 is dual operational amplifiers which provides internal frequency compensation and high performance. It can be applied widely to measuring control equipment and to general Use. The two amplifiers share a common bias network and power supply leads. Features • High voltage Gain: 104dB (Typ) • High speed: 1V/µs • Continuous short-circuit protection • Low-noise operational amplifiers • Internal frequency compensation Ordering Information Type No. HA17558FP HA17558F HA17558 HA17558PS Application Industrial use Commercial use Commercial use Industrial use Package Code (Previous Code) PRSP0008DE-B (FP-8DGV) PRSP0008DE-B (FP-8DGV) PRDP0008AF-A (DP-8B) PRDP0008AF-A (DP-8B) Rev.1.00 Jun 15, 2005 page 1 of 12 HA17558 Series Pin Arrangement Vout1 1 1 Vin(–)1 2 –+ 2 +– 7 Vout2 8 VCC Vin(+)1 3 6 Vin(–)2 VEE 4 5 Vin(+)2 (Top View) Circuit Schematic (1/2) VCC Vin(+) Vin(−) Vout to VCC VEE Rev.1.00 Jun 15, 2005 page 2 of 12 HA17558 Series Absolute Maximum Ratings (Ta = 25°C) Item Supply voltage Differential input voltage Common-mode input voltage Power dissipation Operating temperature Symbol VCC VEE VIN (diff) 3 VCM* PT Topr Ratings HA17558 +18 –18 ±30 ±15 670* –20 to +75 1 HA17558PS +18 –18 ±30 ±15 670* –20 to +75 1 HA17558F +18 –18 ±30 ±15 385* –20 to +75 2 HA17558FP +18 –18 ±30 ±15 385* –20 to +75 2 Unit V V V V mW –20 to +75 Storage temperature Tstg –55 to +125 –55 to +125 –55 to +125 –55 to +125 °C Notes: 1. These are the allowable values up to Ta = 45 °C. Derate by 8.3mW/°C above that temperature. 2. These are the allowable values up to Ta = 31 °C mounting on 30% wiring density glass epoxy board. Derate by 7.14mW/°C above that temperature. 3. If the supply voltage is less than ±15V, input voltage should be less than supply voltage. Electrical Characteristics (Ta = 25°C, VCC = +15V, VEE = –15V) Item Input offset voltage Input offset current Input bias current Voltage gain Maximum output voltage Maximum output voltage Common mode input voltage range Common mode rejection ratio Supply voltage rejection ratio Power dissipation Slew rate Equivalent input noise voltage Channel separation Symbol VIO IIO IIB AVD Vop-p Vop-p VCM CMR PSRR Pd SR VNI CS Min — — — 86 ±12 ±10 ±12 70 — — — — — Typ 0.5 5 50 104 ±14 ±12.4 ±14 100 10 90 1.0 6 105 Max 6 200 500 — — — — — 150 170 — — — Unit mV nA nA dB V V V dB µV/V mW V/µs µVp-p dB Test conditions RS ≤ 10kΩ RL ≥ 2kΩ, VO = ±10V RL ≥ 10kΩ RL ≥ 2kΩ RS ≤ 10kΩ RS ≤ 10kΩ 2-channel, No load AVD = 1 RS = 1kΩ, f = 1HZ to 1kHZ f = 1kHz Rev.1.00 Jun 15, 2005 page 3 of 12 HA17558 Series Characteristic Curves Open Loop Voltage Gain vs. Frequency Open Loop Voltage Gain AV(OL) (dB) 120 100 80 60 40 20 0 1 10 100 1 k 10 k 100 k 1 M 10 M Frequency f (Hz) VCC = 15 V VEE = –15 V RL = 2 kΩ Maximum Output Voltage VOP-P (V) 36 32 28 24 20 16 12 8 4 0 100 1k 10 k 100 k Frequency f (Hz) 1M VCC = 15 V VEE = –15 V RL = 2 kΩ Maximum Output Voltage vs. Frequency Power Supply Rejection Ratio PSRR (dB) Power Supply Rejection Ratio vs. Ambient Temperature 120 VCC = 15 V VEE = –15 V Voltage Gain AVD (dB) 110 120 130 Voltage Gain vs. Ambient Temperature VCC = 15 V VEE = –15 V 100 110 90 100 80 90 70 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 80 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 Rev.1.00 Jun 15, 2005 page 4 of 12 HA17558 Series Power Supply Rejection Ratio vs. Frequency Power Supply Rejection Ratio PSRR (dB) 120 100 80 60 40 20 0 100 VCC = 15 V VEE = −15 V 300 1k 3k 10 k 30 k Frequency f (Hz) 100 k 300 k 1M Common-mode Rejection Ratio vs. Frequency Common−mode Rejection Ratio CMR (dB) 120 100 80 60 40 20 0 100 VCC = 15 V VEE = −15 V Ta = 25°C RL = ∞ 300 1k 3k 10 k 30 k Frequency f (Hz) 100 k 300 k 1M Rev.1.00 Jun 15, 2005 page 5 of 12 HA17558 Series Maximum Output Voltage vs. Ambient Temperature Transient Response Maximum Output Voltage VOP-P (VP-P) 10 40 Output Voltage VO (V) VCC = 15 V VEE = −15 V 5 32 VCC = 15 V VEE = −15 V R L = 2 kΩ 0 −5 −10 24 16 8 0 10 20 30 40 Time t (µs) 0 −20 60 0 20 40 Ambient Temperature Ta (°C) 80 Power Dissipation vs. Ambient Temperature VCC = 15 V VEE = −15 V RL = ∞ Maximum Output Voltage vs. Load Resistance Maximum Output Voltage VOP-P (VP-P) 100 30 Power Dissipation Pd (mW) 90 25 VCC = 15 V VEE = −15 V f = 1 kHz 80 20 70 15 60 10 50 −20 0 20 40 60 80 5 100 200 500 1k 2k 5k 10 k Ambient Temperature Ta (°C) Load Resistance RL (Ω) Rev.1.00 Jun 15, 2005 page 6 of 12 HA17558 Series Common-mode Input Voltage vs. Supply Voltage 20 Supply Current vs. Supply Voltage 5 4 Common-mode Input Voltage VCM (V) RL = ∞ Supply Current ICC (mA) 10 3 2 0 1 –10 0 ±4 ±6 ±9 ±12 ±15 ±18 Supply Voltage VCC, VEE (V) –20 ±4 ±8 ±12 ±16 Supply Voltage VCC, VEE (V) ±18 Input Bias Current vs. Ambient Temperature 100 VCC = 15 V VEE = –15 V Slew Rate vs. Supply Voltage 1.2 Input Bias Current IIB (nA) Slew Rate SR (V/µs) 80 1.0 0.8 0.6 0.4 ±4 60 40 20 f = 1 kHz RL = 2 kΩ CL = 100 pF Ta = 25°C AV = 1 ±6 ±9 ±12 ±15 Supply Voltage VCC, VEE (V) ±18 0 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 Rev.1.00 Jun 15, 2005 page 7 of 12 HA17558 Series Input Offset Current vs. Ambient Temperature 40 VCC = 15 V VEE = –15 V 20 0 –20 –40 Input Offset Voltage vs. Supply Voltage Input Offset Current IIO (nA) Input Offset Voltage VIO (mV) 4 2 0 –2 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 –4 –4 –6 –9 –12 –15 Supply Voltage VCC, VEE (V) –18 Slew Rate vs. Ambient Temperature Voltage Gain vs. Supply Voltage 120 1.4 VCC = 15 V VEE = –15 V RL = 2 kΩ CL = 100 pF AV = 1 Voltage Gain AVD (dB) 100 f = 10 Hz RL = 2 kΩ 80 Slew Rate SR (V/µs) –18 1.2 1.0 0.8 60 0.6 40 –4 –6 –9 –12 –15 Supply Voltage VCC, VEE (V) 0.4 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 Rev.1.00 Jun 15, 2005 page 8 of 12 HA17558 Series Output Short Current vs. Ambient Temperature 60 VCC = 15 V VEE = –15 V 50 Sink Output Short Current IOS (mA) 40 30 Source 20 10 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 Input Noise Voltage vs. Frequency 100 RS = 100 Ω 30 Input Noise Voltage VNI (nV/√  Hz) 10 3 1 10 30 100 300 1k Frequency f (Hz) 3k 10 k Rev.1.00 Jun 15, 2005 page 9 of 12 HA17558 Series Common-mode Rejection Ratio vs. Ambient Temperature 140 VCC = 15 V VEE = –15 V 120 Input Offset Voltage vs. Ambient Temperature VCC = 15 V VEE = –15 V Common-mode Rejection Ratio CMR (dB) Input Offset Voltage VIO (mA) 4 2 100 0 80 –2 60 –4 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 40 –20 0 20 40 60 Ambient Temperature Ta (°C) 80 Rev.1.00 Jun 15, 2005 page 10 of 12 HA17558 Series Circuit Example RIAA Pre-amplifier 0.0022 µF 0.01 µF +15 V 36 kΩ – Input 2.2 kΩ 33 µF + + 47 µF – 1 kΩ –15 V HA17558 390 kΩ 33 µF + 100 µF – Otuput 10 kΩ 56 kΩ – 100 µF + T.H.D. vs. Output Voltage (RIAA Pre-Amp) 1.0 60 T.H.D. vs. Output Voltage (RIAA Pre–Amp) VCC = 15 V VEE = –15 V 0.3 50 Voltage Gain AVD (dB) 0.1 T.H.D (%) 20 kHz 40 0.03 0.01 10 kHz 1 kHz 30 20 0.003 0.001 0.01 10 20 kHz 0 10 0.03 0.1 0.3 1.0 Output Voltage (Vrms) 3 10 30 100 300 1k 3k 10 k Frequency f (Vrms) 30 k 100 k Rev.1.00 Jun 15, 2005 page 11 of 12 HA17558 Series Package Dimensions JEITA Package Code P-DIP8-6.3x9.6-2.54 RENESAS Code PRDP0008AF-A Previous Code DP-8B MASS[Typ.] 0.51g D 8 5 1 0.89 b3 4 Z Dimension in Millimeters Min Nom 7.62 9.6 6.3 10.6 7.4 5.06 0.5 0.38 0.48 1.3 0.20 0° 2.29 2.54 0.25 0.35 15° 2.79 1.27 2.54 0.58 Max E Reference Symbol e1 A A1 D E A L A1 bp b3 e bp θ e1 c c θ e Z L JEITA Package Code P-SOP8-4.4x4.85-1.27 RENESAS Code PRSP0008DE-B Previous Code FP-8DGV MASS[Typ.] 0.1g *1 D 5 F NOTE) 1. DIMENSIONS"*1 (Nom)"AND"*2" DO NOT INCLUDE MOLD FLASH. 2. DIMENSION"*3"DOES NOT INCLUDE TRIM OFFSET. 8 bp *2 HE E c Reference Symbol Dimension in Millimeters Min Nom 4.85 4.4 Max 5.25 Index mark Terminal cross section ( Ni/Pd/Au plating ) 1 Z e 4 *3 D E A2 bp A1 x M L1 A bp b1 c c1 0.00 0.1 0.20 2.03 0.35 0.4 0.45 0.15 0.20 0.25 θ HE 0° 6.35 6.5 1.27 8° 6.75 A θ A1 L e x y 0.12 0.15 0.75 0.42 1 y Detail F Z L L 0.60 1.05 0.85 Rev.1.00 Jun 15, 2005 page 12 of 12 Sales Strategic Planning Div. Keep safety first in your circuit designs! Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan 1. Renesas Technology Corp. puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage. 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