ha1630q01 Renesas Electronics Corporation., ha1630q01 Datasheet

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ha1630q01

Manufacturer Part Number
ha1630q01
Description
Low Voltage Operation Cmos Quad Operational Amplifier
Manufacturer
Renesas Electronics Corporation.
Datasheet

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Part Number
Manufacturer
Quantity
Price
Part Number:
ha1630q01TELL-E
Manufacturer:
RENESAS
Quantity:
8 000
HA1630Q01/02/03 Series
Low Voltage Operation CMOS Quad Operational Amplifier
Description
The HA1630Q01/02/03 are dual CMOS Operational Amplifiers realizing low voltage operation, low input offset
voltage and low supply current. In addition to a low operating voltage from 1.8V, these device output can achieve full
swing output voltage capability extending to either supply. Available in an ultra-small TSSOP-14 package that
occupies only 1/2 the area of the SOP-14 package.
Features
Ordering Information
HA1630Q01T
HA1630Q02T
HA1630Q03T
Rev.1.00 Mar 10, 2006 page 1 of 23
Low power and single supply operation
Low input offset voltage
Low supply current (per channel)
Maximum output voltage
Low input bias current
Type No.
TTP-14D
TTP-14D
TTP-14D
V
V
I
I
I
V
I
DD
DD
DD
IB
DD
IO
OH
Package Name
= 1 pA Typ
= 15 A Typ (HA1630Q01)
= 50 A Typ (HA1630Q02)
= 100 A Typ (HA1630Q03)
= 4.0 mV Max
= 1.8 to 5.5 V
= 2.9 V Min (at V
DD
= 3.0 V)
PTSP0014JA-B
PTSP0014JA-B
PTSP0014JA-B
Package Code
REJ03D0802-0100
Mar 10, 2006
Rev.1.00

Related parts for ha1630q01

ha1630q01 Summary of contents

Page 1

... Low Voltage Operation CMOS Quad Operational Amplifier Description The HA1630Q01/02/03 are dual CMOS Operational Amplifiers realizing low voltage operation, low input offset voltage and low supply current. In addition to a low operating voltage from 1.8V, these device output can achieve full swing output voltage capability extending to either supply. Available in an ultra-small TSSOP-14 package that occupies only 1/2 the area of the SOP-14 package ...

Page 2

... HA1630Q01/02/03 Series Pin Arrangement Equivalent Circuit (per one channel IN(–) V IN(+) V SS Rev.1.00 Mar 10, 2006 page OUT1 OUT4 IN1(–) − + − IN4(– IN1(+) IN4(+) IN2(+) IN3(+) − ...

Page 3

... M L — 0.5 V (HA1630Q01) OL — 0.5 V (HA1630Q02) OL — 0.5 V (HA1630Q03) OL — V — (HA1630Q01) L — (HA1630Q02) L — (HA1630Q03) L — dB — kHz (HA1630Q01) L — (HA1630Q02) L — (HA1630Q03) L — dB — dB 120 (HA1630Q01) L 400 R = (HA1630Q02) L 800 R = (HA1630Q03 ...

Page 4

... HA1630Q01/02/03 Series Table of Graphs Electrical Characteristics Supply current I DD Output high voltage V OH Output source current I O SOURCE Output low voltage V OL Output sink current I O SINK Input offset voltage V IO Common mode input V CM voltage range Power supply rejection PSRR ...

Page 5

... 25° (µA) OSOURCE 100 Figure 1-2. HA1630Q01 Supply Current vs. Ambient Temperature − Ambient Temperature Ta (°C) Figure 1-4. HA1630Q01 Output High Voltage vs. Supply Voltage Ta = 25°C Ω ...

Page 6

... Figure 1-7. HA1630Q01 Output Sink Current vs. Ambient Temperature − Ambient Temperature Ta (°C) Figure 1-9. HA1630Q01 Input Offset Voltage vs. Supply Voltage Ta = 25° Supply Voltage V (V) DD Figure 1-11. HA1630Q01 Common Mode Input Voltage vs. Ambient Temperature −20 ...

Page 7

... Rev.1.00 Mar 10, 2006 page Figure 1-12. HA1630Q01 Power Supply Rejection Ratio vs. Frequency 1k 10k Frequency f (Hz) Figure 1-13. HA1630Q01 Common Mode Rejection Ratio vs. Frequency 1k 10k Frequency f (Hz) Figure 1-14. HA1630Q01 Open Loop Voltage Gain Phase Angle Phase Margin: 50 deg 1k 10k Frequency f (Hz 25° 3 MΩ ...

Page 8

... MΩ Figure 1-16. HA1630Q01 Input Bias Current vs. Input Voltage Ta = 25° 0.5 1.0 1.5 2.0 Input Voltage V (V) IN Figure 1-18. HA1630Q01 Slew Rate (falling) vs. Ambient Temperature − Ambient Temperature Ta (°C) Figure 1-20. HA1630Q01 Small Signal Transient Response Ta = 25° ...

Page 9

... HA1630Q01/02/03 Series 3.5 Gain = 40 dB, V p-p 3.0 Gain = 20 dB, V p-p 2.5 Gain = 0 dB, V 2.0 p-p 1.5 1.0 0.5 0 100 200 100 0 100 Rev.1.00 Mar 10, 2006 page Figure 1-21. HA1630Q01 Voltage Output p-p vs. Frequency = 10k Frequency f (Hz) Figure 1-22. HA1630Q01 Voltage Noise Density vs. Frequency Frequency f (Hz 25° 3 100k 1M 10k ...

Page 10

... HA1630Q01/02/03 Series Main Characteristics (HA1630Q02) Figure 2-1. HA1630Q02 Supply Current vs. Supply Voltage 200 160 120 Supply Voltage V Figure 2-3. HA1630Q02 Output High Voltage vs. Output Source Current Output Source Current I Figure 2-5. HA1630Q02 Output Source Current vs ...

Page 11

... HA1630Q01/02/03 Series Figure 2-6. HA1630Q02 Output Low Voltage vs. Output Sink Current 2 0.5 Output Sink Current I Figure 2-8. HA1630Q02 Input Offset Voltage Distribution 25° 3 −4 −3 −2 −1 0 Input Offset Voltage V Figure 2-10. HA1630Q02 Input Offset Voltage vs. Ambient Temperature ...

Page 12

... HA1630Q01/02/03 Series 120 100 100 120 100 100 Open Loop Voltage Gain and Phase Angle vs. Frequency 100 −20 −40 10 100 Rev.1.00 Mar 10, 2006 page Figure 2-12. HA1630Q02 Power Supply Rejection Ratio vs. Frequency 1k 10k Frequency f (Hz) Figure 2-13 ...

Page 13

... HA1630Q01/02/03 Series Figure 2-15. HA1630Q02 Input Bias Current vs. Ambient Temperature 200 100 0 −100 −200 Ambient Temperature Ta (°C) Figure 2-17. HA1630Q02 Slew Rate (rising) vs. Ambient Temperature 0 1.8 V 0.6 DD 0.5 0.4 0.3 −40 − Ambient Temperature Ta (°C) Figure 2-19. HA1630Q02 Large Signal Transient Response Rev ...

Page 14

... HA1630Q01/02/03 Series Figure 2-21. HA1630Q02 Total Harmonic Distortion + Noise vs. Output Voltage p 3 25°C Gain = 0 kHz 0. kHz 0.001 0 0.5 1.0 1.5 Output Voltage Vout p-p (V) 3.5 Gain = 40 dB, Vp-p = 0.03 V 3.0 Gain = 20 dB, Vp-p = 0.3 V 2.5 Gain = 0 dB, Vp-p = 2.5 V 2.0 1.5 1.0 0.5 0 100 200 100 Rev.1.00 Mar 10, 2006 page 0.1 0. 100 Hz ...

Page 15

... HA1630Q01/02/03 Series Main Characteristics (HA1630Q03) Figure 3-1. HA1630Q03 Supply Current vs. Supply Voltage 400 300 200 100 Supply Voltage V Figure 3-3. HA1630Q03 Output High Voltage vs. Output Source Current Output Source Current I Figure 3-5. HA1630Q03 Output Source Current vs ...

Page 16

... HA1630Q01/02/03 Series Figure 3-6. HA1630Q03 Output Low Voltage vs. Output Sink Current 2.0 1.5 1.0 0 0.5 Output Sink Current I Figure 3-8. HA1630Q03 Input Offset Voltage Distribution 25° 3 −4 −3 −2 −1 0 Input Offset Voltage V Figure 3-10. HA1630Q03 Input Offset Voltage vs. Ambient Temperature ...

Page 17

... HA1630Q01/02/03 Series 120 100 100 120 100 100 Open Loop Voltage Gain and Phase Angle vs. Frequency 100 −20 −40 10 100 Rev.1.00 Mar 10, 2006 page Figure 3-12. HA1630Q03 Power Supply Rejection Ratio vs. Frequency 1k 10k Frequency f (Hz) Figure 3-13 ...

Page 18

... HA1630Q01/02/03 Series Figure 3-15. HA1630Q03 Input Bias Current vs. Ambient Temperature 200 100 0 −100 −200 Ambient Temperature Ta (°C) Figure 3-17. HA1630Q03 Slew Rate (rising) vs. Ambient Temperature 0.9 0.6 0.3 0 −40 − Ambient Temperature Ta (°C) Figure 3-19. HA1630Q03 Large Signal Transient Response Rev ...

Page 19

... HA1630Q01/02/03 Series Figure 3-21. HA1630Q03 Total Harmonic Distortion + Noise vs. Output Voltage p 3 25°C Gain = 0 kHz 0. kHz 0.001 0 0.5 1.0 1.5 Output Voltage Vout p-p (V) 3.5 Gain = 40 dB, Vp-p = 0.03 V 3.0 Gain = 20 dB, Vp-p = 0.3 V 2.5 Gain = 0 dB, Vp-p = 2.5 V 2.0 1.5 1.0 0.5 0 100 200 100 0 100 Rev.1.00 Mar 10, 2006 page ...

Page 20

... HA1630Q01/02/03 Series Test Circuits 1. Power Supply Rejection Ratio, PSRP & Voltage Offset − Supply Current − Output High Voltage − IN1 IN2 5. Output Low Voltage − ...

Page 21

... HA1630Q01/02/03 Series 6. Output Source Current, I OSOURCE V DD − IN1 IN2 7. Common Mode Input Voltage − Total Harmonic Distortion, THD Gain Variable − Slew Rate − MΩ ...

Page 22

... HA1630Q01/02/03 Series Package Dimensions JEITA Package Code RENESAS Code P-TSSOP14-4.4x5-0.65 PTSP0014JA Index mark Rev.1.00 Mar 10, 2006 page Previous Code MASS[Typ.] TTP-14DV 0.05g F 8 Terminal cross section ( Ni/Pd/Au plating ) NOTE) 1. DIMENSIONS"*1 (Nom)"AND"*2" DO NOT INCLUDE MOLD FLASH. ...

Page 23

... HA1630Q01/02/03 Series Taping & Reel Specification [Taping] Package Code W TSSOP-14 12 Cover Tape K 0 [Reel] Package Tape width TSSOP-14 12 [Ordering Information] Ordering Unit 2,000 pcs Mark Indication 14 (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) 1 Index hole Rev.1.00 Mar 10, 2006 page ...

Page 24

Keep safety first in your circuit designs! 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 ...

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