Latches15 Products
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| Image | Part Number | Manufacturer | Description | Availability | Actions | |
|---|---|---|---|---|---|---|
 PDF | 54LS256DM | Rochester Electronics, LLC | D LATCH, 2 FUNC, 4 BIT, TTL, CDI | In Stock | MOQ: 1 Hover to quote | |
 PDF | 93L22FM/B | Rochester Electronics, LLC | QUAD LATCH | In Stock | MOQ: 1 Hover to quote | |
 PDF | 74ALS993NT | Rochester Electronics, LLC | 9 BIT D-TYPE TRANSPRT READ-BACK | In Stock | MOQ: 1 Hover to quote | |
PDF | 93L14DM/B | Rochester Electronics, LLC | QUAD LATCH | In Stock | MOQ: 1 Hover to quote | |
 PDF | 54F573/BSA | Rochester Electronics, LLC | DUAL MARKED (M38510/34604BSA) | In Stock | MOQ: 1 Hover to quote | |
 PDF | 54ACT373DM/B | Rochester Electronics, LLC | OCTAL TRANSPARENT LATCH WITH 3 S | In Stock | MOQ: 1 Hover to quote | |
PDF | DM54279W/B | Rochester Electronics, LLC | LATCH | In Stock | MOQ: 1 Hover to quote | |
 PDF | 74AS842DWR | Rochester Electronics, LLC | 10 BIT INTERFACE D-TYPE LATCHES | In Stock | MOQ: 1 Hover to quote | |
PDF | DM54LS168J/B | Rochester Electronics, LLC | DM54LS168J/B | In Stock | MOQ: 1 Hover to quote | |
 PDF | 54LS259B/BEA | Rochester Electronics, LLC | DUAL MARKED (M38510/31605BEA) | In Stock | MOQ: 1 Hover to quote | |
 PDF | 100355QI | Rochester Electronics, LLC | IC SWITCH SPST-NO X 4 28PLCC | In Stock | MOQ: 1 Hover to quote | |
 PDF | SCAN18373T/MXA | Rochester Electronics, LLC | SCAN18373 - TRANSPARENT LATCH WI | In Stock | MOQ: 1 Hover to quote | |
 PDF | SCAN18373TSSC-G | Rochester Electronics, LLC | TRANSPARENT LATCH WITH 3 STATE O | In Stock | MOQ: 1 Hover to quote | |
 PDF | 54F573FM/B | Rochester Electronics, LLC | 54F573 - BUS DRIVER, F/FAST SERI | In Stock | MOQ: 1 Hover to quote | |
PDF | 5475/BEA | Rochester Electronics, LLC | DUAL MARKED (M38510/01501BEA) | In Stock | MOQ: 1 Hover to quote |
Latches are elementary digital memory devices similar to flip-flops, but different in that the retained logic state can change at any time a latch enable (or similarly named) signal is in a valid logic state. Latches described as "transparent" further allow the device outputs to reflect the current state of the inputs while the latch enable signal is valid, as opposed to changing state only when the retained state has been fixed.