Part number:
ADCMP605
Manufacturer:
File Size:
356.13 KB
Description:
Single-supply lvds comparators.
* Fully specified rail to rail at VCC = 2.5 V to 5.5 V Input common-mode voltage from
* 0.2 V to VCC + 0.2 V Low glitch LVDS-compatible output stage 1.6 ns propagation delay 37 mW at 2.5 V Shutdown pin Single-pin control for programmable hysteresis and latch Power supply rejection > 60 dB
ADCMP605 Datasheet (356.13 KB)
ADCMP605
356.13 KB
Single-supply lvds comparators.
📁 Related Datasheet
ADCMP600 - Single-Supply TTL/CMOS Comparator
(Analog Devices)
..
Preliminary Technical Data
FEATURES
Rail-to-Rail, Very Fast, 2.5 V to 5.5 V, Single-Supply TTL/CMOS Comparators ADCMP600/ADCMP60.
ADCMP601 - Single-Supply TTL/CMOS Comparator
(Analog Devices)
..
Preliminary Technical Data
FEATURES
Rail-to-Rail, Very Fast, 2.5 V to 5.5 V, Single-Supply TTL/CMOS Comparators ADCMP600/ADCMP60.
ADCMP602 - Single-Supply TTL/CMOS Comparator
(Analog Devices)
..
Preliminary Technical Data
FEATURES
Rail-to-Rail, Very Fast, 2.5 V to 5.5 V, Single-Supply TTL/CMOS Comparators ADCMP600/ADCMP60.
ADCMP603 - Single-Supply TTL/CMOS Comparator
(Analog Devices)
..
Rail-to-Rail, Very Fast, 2.5 V to 5.5 V, Single-Supply TTL/CMOS Comparator ADCMP603
FEATURES
Fully specified rail to rail at VCC .
ADCMP604 - Single-Supply LVDS Comparators
(Analog Devices)
..
Rail-to-Rail, Very Fast, 2.5 V to 5.5 V, Single-Supply LVDS Comparators ADCMP604/ADCMP605
FEATURES
Fully specified rail to rail a.
ADCMP606 - Single-Supply CML Comparators
(Analog Devices)
..
Preliminary Technical Data
FEATURES
Rail-to-Rail, Very Fast, 2.5 V to 5.5 V, Single-Supply CML Comparators ADCMP606/ADCMP607
FUN.
ADCMP607 - Single-Supply CML Comparators
(Analog Devices)
..
Preliminary Technical Data
FEATURES
Rail-to-Rail, Very Fast, 2.5 V to 5.5 V, Single-Supply CML Comparators ADCMP606/ADCMP607
FUN.
ADCMP608 - Single-Supply TTL/CMOS Comparator
(Analog Devices)
Data Sheet
Rail-to-Rail, Fast, Low Power 2.5 V to 5.5 V, Single-Supply TTL/CMOS Comparator ADCMP608
FEATURES
Fully specified rail to rail at VCC = 2.