LMV98x-N are low-voltage, low-power operational amplifiers. LMV98x-N operate from 1.8-V to 5-V supply voltages and have rail-to-rail input and output. LMV98x-N input common mode voltage extends 200mV beyond the supplies which enables user enhanced functionality beyond the supply voltage range. The output can swing rail-to-rail unloaded and within 105 mV from the rail with 600-Ω load at 1.8-V supply. LMV98x-N are optimized to work at 1.8 V, which makes them ideal for portable two-cell battery powered systems and single cell Li-Ion systems.
LMV98x-N offer a shutdown pin that can be used to disable the device and reduce the supply current. The device is in shutdown when the SHDN pin is low. The output is high impedance in shutdown.
LMV98x-N exhibit excellent speed-power ratio, achieving 1.4-MHz gain bandwidth product at 1.8-V supply voltage with low supply current. LMV98x-N are capable of driving a 600-Ω load and up to 1000-pF capacitive load with minimal ringing. LMV98x-N have a high DC gain of 101 dB, making them suitable for low frequency applications.
LMV981-N is offered in space-saving, 6-pin DSBGA, SC70, and SOT-23 packages. The 6-pin DSBGA package has only a 1.006 mm × 1.514 mm × 0.945 mm footprint. LMV982-N is offered in a space-saving, 10-pin VSSOP package. These small packages are ideal solutions for area constrained PCBs and portable electronics such as cellular phones and PDAs.
Status | ACTIVE |
Approx. price | 0.41 | 1ku |
Number of channels | 1 |
Total Supply Voltage | 1.8 |
Rail-to-rail | In^Out |
GBW | 1.5 |
Slew Rate | 0.42 |
Package Group | DSBGA|6 |
Vos (offset voltage @ 25 C) | 4 |
Iq per channel | 0.116 |
Vn at 1 kHz | 50 |
Rating | Catalog |
Operating temperature range | -40 to 125 |
Package size: mm2:W x L (PKG) | See datasheet (DSBGA) |
Offset drift | 5.5 |
Features | Shutdown^Small Size |
Input bias current | 35000 |
CMRR | 86 |
Output current | 65 |
Architecture | Bipolar |
Radiation, TID | |
Radiation, SEL | |
Input common mode headroom (to negative supply) | -0.2 |
Input common mode headroom (to positive supply) | 0.3 |
Output swing headroom (to negative supply) | 0.037 |
Output swing headroom (to positive supply) | -0.033 |