LM6152 Series

Dual 75 MHz GBW rail-to-rail I/O operational amplifier

Catalog

Dual 75 MHz GBW rail-to-rail I/O operational amplifier

Part	Current - Output / Channel	Gain Bandwidth Product	Output Type	Voltage - Supply Span (Min) [Min]	Package / Case	Package / Case [y]	Package / Case [x]	Amplifier Type	Voltage - Supply Span (Max) [Max]	Mounting Type	Supplier Device Package	Operating Temperature [Max]	Current - Input Bias	Slew Rate	Voltage - Input Offset	Current - Supply	Number of Circuits
Texas Instruments LM6152ACM/NOPB	16.9 mA	80 MHz	Rail-to-Rail	2.7 V	8-SOIC	3.9 mm	0.154 in	General Purpose	24 V	Surface Mount	8-SOIC	70 °C	500 nA	30 V/µs	300 çV	1.6 mA	2
Texas Instruments LM6152BCM/NOPB	16.9 mA	80 MHz	Rail-to-Rail	2.7 V	8-SOIC	3.9 mm	0.154 in	General Purpose	24 V	Surface Mount	8-SOIC	70 °C	500 nA	30 V/µs	300 çV	1.6 mA	2
Texas Instruments LM6152BCM	16.9 mA	80 MHz	Rail-to-Rail	2.7 V	8-SOIC	3.9 mm	0.154 in	General Purpose	24 V	Surface Mount	8-SOIC	70 °C	500 nA	30 V/µs	300 çV	1.6 mA	2
Texas Instruments LM6152ACM	16.9 mA	80 MHz	Rail-to-Rail	2.7 V	8-SOIC	3.9 mm	0.154 in	General Purpose	24 V	Surface Mount	8-SOIC	70 °C	500 nA	30 V/µs	300 çV	1.6 mA	2

Catalog

Dual 75 MHz GBW rail-to-rail I/O operational amplifier

Key Features

• At VS= 5V, typical unless noted.Greater than Rail-to-rail Input CMVR−0.2 5V to 5.25 VRail-to-rail Output Swing 0.01 V to 4.99 VWide Gain-bandwidth 75 MHz @ 100 kHzSlew RateSmall Signal 5 V/µsLarge Signal 45 V/µsLow Supply Current 1.4 mA/amplifierWide Supply Range 2.7 V to 24 VFast Settling Time of 1.1 µs for 2 V Step(to 0.01%)PSRR 91 dBCMRR 84 dBAt VS= 5V, typical unless noted.Greater than Rail-to-rail Input CMVR−0.2 5V to 5.25 VRail-to-rail Output Swing 0.01 V to 4.99 VWide Gain-bandwidth 75 MHz @ 100 kHzSlew RateSmall Signal 5 V/µsLarge Signal 45 V/µsLow Supply Current 1.4 mA/amplifierWide Supply Range 2.7 V to 24 VFast Settling Time of 1.1 µs for 2 V Step(to 0.01%)PSRR 91 dBCMRR 84 dB

Description

Using patented circuit topologies, the LM6152/LM6154 provides new levels of speed vs. power performance in applications where low voltage supplies or power limitations previously made compromise necessary. With only 1.4 mA/amplifier supply current, the 75 MHz gain bandwidth of this device supports new portable applications where higher power devices unacceptably drain battery life. The slew rate of the devices increases with increasing input differential voltage, thus allowing the device to handle capacitive loads while maintaining large signal amplitude. The LM6152/LM6154 can be driven by voltages that exceed both power supply rails, thus eliminating concerns about exceeding the common-mode voltage range. The rail-to-rail output swing capability provides the maximum possible dynamic range at the output. This is particularly important when operating on low supply voltages. Operating on supplies from 2.7 V to over 24 V, the LM6152/LM6154 is excellent for a very wide range of applications, from battery operated systems with large bandwidth requirements to high speed instrumentation. Using patented circuit topologies, the LM6152/LM6154 provides new levels of speed vs. power performance in applications where low voltage supplies or power limitations previously made compromise necessary. With only 1.4 mA/amplifier supply current, the 75 MHz gain bandwidth of this device supports new portable applications where higher power devices unacceptably drain battery life. The slew rate of the devices increases with increasing input differential voltage, thus allowing the device to handle capacitive loads while maintaining large signal amplitude. The LM6152/LM6154 can be driven by voltages that exceed both power supply rails, thus eliminating concerns about exceeding the common-mode voltage range. The rail-to-rail output swing capability provides the maximum possible dynamic range at the output. This is particularly important when operating on low supply voltages. Operating on supplies from 2.7 V to over 24 V, the LM6152/LM6154 is excellent for a very wide range of applications, from battery operated systems with large bandwidth requirements to high speed instrumentation.