ha1630d07 Renesas Electronics Corporation., ha1630d07 Datasheet

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ha1630d07

Manufacturer Part Number
ha1630d07
Description
Dual Cmos High Drive Operational Amplifier
Manufacturer
Renesas Electronics Corporation.
Datasheet
HA1630D07
Dual CMOS High Drive Operational Amplifier
Description
HA1630D07 is a low power dual CMOS operational amplifier featuring high output current with typical current supply
of 120 µA for both channels (2.7 V to 5.5 V). This IC designed to operate from a single power supply and have full
swing outputs. Available in MMPAK-8 and TSSOP-8 package, the miniature size of this IC not only allows compact
integration in portable devices but also minimizes distance of signal sources (sensors), thus reducing external noise pick
up prior to amplification. This IC exhibit excellent current drive-power ratio capable of 2 kΩ load driving and yet
resistant to oscillation for capacitive loads up to 200 pF.
Features
• Low supply current
• Low voltage operation
• Low input offset voltage
• Low input bias current
• High output current
• Input common voltage range includes ground
Ordering Information
HA1630D07MM
HA1630D07T
REJ03D0859-0200 Rev.2.00 Nov 30, 2007
Page 1 of 14
Part No.
V
I
I
V
I
I
DD
IB
OSOURCE
OSINK
DD
IO
= 1 pA Typ
= 120 µA Typ (V
= 6 mV Max
= 2.7 V to 5.5 V
= 15 mA Typ (V
= 15 mA Typ (V
Package Name
DD
MMPAK-8
DD
TSSOP-8
= 3 V, R
DD
= 3.0 V, V
= 3.0 V, V
L
= No load)
OL
OH
= 0.5 V)
= 2.5 V)
PLSP0008JC-A
PTSP0008JC-B
Package Code
REJ03D0859-0200
Nov 30, 2007
Rev.2.00

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ha1630d07 Summary of contents

Page 1

... Dual CMOS High Drive Operational Amplifier Description HA1630D07 is a low power dual CMOS operational amplifier featuring high output current with typical current supply of 120 µA for both channels (2 5.5 V). This IC designed to operate from a single power supply and have full swing outputs. Available in MMPAK-8 and TSSOP-8 package, the miniature size of this IC not only allows compact integration in portable devices but also minimizes distance of signal sources (sensors), thus reducing external noise pick up prior to amplification. This IC exhibit excellent current drive-power ratio capable of 2 kΩ ...

Page 2

... HA1630D07 Pin Arrangement Equivalent Circuit (1/ IN(–) V IN(+) V SS REJ03D0859-0200 Rev.2.00 Nov 30, 2007 Page OUT1 IN1(–) OUT2 + IN1(+) IN2(– IN2(+) (Top view) Vbias2 Vbias1 V OUT Vbias3 ...

Page 3

... HA1630D07 Absolute Maximum Ratings Item Supply voltage Differential input voltage Input voltage Output current Power dissipation Operating temperature Storage temperature Note not apply input voltage exceeding > 25°C, MMPAK-8: derate by –1.45 mW/°C TSSOP-8: derate by –1.92 mW/°C Electrical Characteristics ...

Page 4

... HA1630D07 Table of Graphs Electrical Characteristics Supply current Output high voltage Output low voltage Output source current Output sink current Input offset voltage Common mode input voltage range Common mode rejection ratio Power supply rejection ratio Input bias current Slew rate (rising) ...

Page 5

... HA1630D07 Test Circuits 1. Supply Current Output Low Voltage LOAD = Output Sink Current, I OSINK + OUT 7. Input Offset Voltage OUT –1 1001 IO OUT REJ03D0859-0200 Rev.2.00 Nov 30, 2007 ...

Page 6

... HA1630D07 Test Circuits (cont.) 9. Common Mode Rejection Ratio, CMRR OUT –1 10. Power Supply Rejection Ratio, PSRR OUT – 11. Input Bias Current 13. Slew Rate (Large Signal Input) ...

Page 7

... HA1630D07 Test Circuits (cont.) 14. Open Loop Voltage Gain 100 MHz 50 –40 dBm 15. Channel Separation 100 MHz 50 10 dBm Channel 1 16. Noise Input Voltage, VNI OUT V + 1.5 V –1.5 V REJ03D0859-0200 Rev.2.00 Nov 30, 2007 ...

Page 8

... OSOURCE Figure 2 HA1630D07 Supply Current vs. Ambient Temperature 2 –50 – Ambient Temperature, Ta (°C) Figure 4 HA1630D07 Output Low Voltage vs. Resistor Load 100 Resistor Load, R (Ω) L Figure 6 HA1630D07 –50 – Ambient Temperature, Ta (° ...

Page 9

... Common Mode Input Voltage vs. Supply Voltage –1 – 100 Figure 8 HA1630D07 –50 – Ambient Temperature Figure 10 HA1630D07 Input Offset Voltage vs. Input Voltage –1 –1.5 –0.5 0.5 Input Voltage, V (V) IN Figure 12 HA1630D07 5 4 VCM+ ...

Page 10

... 2.0 1.0 0 100 0 Figure 14 HA1630D07 –1 –1 0 Input Voltage, V (V) IN Figure 16 HA1630D07 Input Bias Current vs. Input Voltage Input Voltage, V (V) IN Figure 18 HA1630D07 Slew Rate (rising) vs. Capacitive Load 100 200 300 Capacitive Load, C (pF 400 ...

Page 11

... L 120 100 80 60 SRf = 1.23 V/µ 100 Figure 20 HA1630D07 Slew Rate (rising) SRr = 1.10 V/µs Figure 22 HA1630D07 V = 2.7 V, 3 – Ambient Temperature, Ta (°C) Figure 24 HA1630D07 Open Loop Gain vs. Resistor Load 100 k Resistor Load, R (Ω ...

Page 12

... 100 50 0 –50 300 350 400 10 (pF 3 Figure 26 HA1630D07 Open Loop Gain, Phase vs. Frequency 400 pF L Gain Phase 100 100 Frequency, f (Hz) Figure 28 HA1630D07 Channel Separation vs. Frequency 100 ...

Page 13

... HA1630D07 Package Dimensions JEITA Package Code RENESAS Code Package Name MMPAK-8 P-LSOP8-2.8 x 2.95 - 0.65 JEITA Package Code RENESAS Code P-TSSOP8-4.4x3-0.65 PTSP0008JC Index mark REJ03D0859-0200 Rev.2.00 Nov 30, 2007 Page Previous Code MASS[Typ.] PLSP0008JC-A 0.02 g 2.95 0.2 +0.1 0.2 0.65 -0.05 0.1 M 1.95 0.1 Previous Code MASS[Typ.] TTP-8DAV 0.034g ...

Page 14

... HA1630D07 Taping & Reel Specification [Taping] Package Code W TSSOP-8 12 MMPAK-8 12 Cover Tape K 0 [Reel] Package Tape width TSSOP-8 12 MMPAK-8 12 [Ordering Information] Ordering Unit 3,000 pcs Mark Indication TSSOP REJ03D0859-0200 Rev.2.00 Nov 30, 2007 Page 6.9 3.6 1.7 1.75 4.0 3.15 4.35 — — ...

Page 15

Notes: 1. This document is provided for reference purposes only so that Renesas customers may select the appropriate Renesas products for their use. Renesas neither makes warranties or representations with respect to the accuracy or completeness of the information contained ...

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