Product Overview

Product Overview
NCS2002: 0.9V Supply, Rail to Rail I/O, Single Op-Amp with Shutdown
For complete documentation, see the data sheet
Product Description
The NCS2002 is an industry first sub-one volt op-amp that features a rail-to-rail common mode input voltage range, along with railto-rail output drive capability. This amplifier is guaranteed to be fully operational down to 0.9 V, providing an ideal solution for
powering applications from a single cell Nickel Cadmium (NiCd) or Nicket Metal Hydride (NiMH) battery. Additional features include
no output phase reversal with overdriven inputs, trimmed input offset voltage of 0.5 mV, extremely low input bias current of 40 pA,
and a unity gain bandwidth of 1.1 MHz at 5.0 V. The NCS2002 also has an active high enable pin that allow external shutdown of the
device. In the standby mode, the supply current is typically 1.9 A at 1.0 V. Because of its small size and enable feature, this amplifier
represents the ideal solution for small portable electronic applications. The NCS2002 is available in the space saving SOT23-6
(TSOP-6) package with two industry standard pinouts.
Features
•
•
•
•
•
•
•
•
0.9 V Guaranteed Operation
Standby Mode: ID = 1.9 µA at 1.0 V, Typical
Rail-to-Rail Common Mode Input Voltage Range
Rail-to-Rail Output Drive Capability
No Output Phase Reversal for Over-Driven Input Signals
0.5 mV Trimmed Input Offset
10 pA Input Bias Current
1.1 MHz Unity Gain Bandwidth at ±2.5V, 1.0 MHz at ±0.5V
Applications
End Products
• Signal Conditioning
• Sensor Interfaces
• Digital Still Cameras
• PDAs
Part Electrical Specifications
Product
Compliance
Status
Rail to
Rail
NCS2002SN1T1G
Pb-free
Active
Active
Halide free
NCS2002SN2T1G
Pb-free
Halide free
Channel
s
VCC Min
(V)
VCC Max IO Min
(V)
(mA)
IO Typ
(mA)
ID Typ
(mA)
GBW
Typ
(MHz)
SR Typ
(V/µs)
VIO Max
(mV)
Packag
e Type
Input/Ou 1
tput
0.9
7
65
86
0.002
1
1.2
6
TSOP-6
Input/Ou 1
tput
0.9
7
65
86
0.002
1
1.2
6
TSOP-6
For more information please contact your local sales support at www.onsemi.com
Created on: 6/30/2016