The MIC5800/5801 latched drivers are high-voltage, high-current integrated circuits comprised of four or eight CMOS data latches, a bipolar Darlington transistor driver for each latch, and CMOS con...
Logic Family = CMOS Latch Mode = Transparent Latching Element = D Type Number of Elements per Chip = 15 Number of Channels per Chip = 1 Output Type = Open Collector Polarity = Non-Inverting Mountin...
Logic Family = MIC5840 Number of Elements per Chip = 1 Number of Channels per Chip = 8 Output Type = CMOS Mounting Type = Surface Mount Package Type = SOIC Pin Count = 18 Minimum Operating Temperat...
Using BiCMOS technology, the MIC5841/5842 integrated circuits were fabricated to be used in a wide variety of peripheral power driver applications. The devices each have an eight-bit CMOS shift reg...
Using BiCMOS technology, the MIC5841/5842 integrated circuits were fabricated to be used in a wide variety of peripheral power driver applications. The devices each have an eight-bit CMOS shift reg...
Logic Family = CMOS Latch Mode = Transparent Latching Element = D Type Number of Bits = 8 Number of Channels per Chip = 1 Mounting Type = Through Hole Package Type = DIP Pin Count = 18 Set/Reset = ...
The Microchip MIC5891YWM-TR latched driver is a high-voltage, high current integrated circuit comprised of eight CMOS data latches, CMOS control circuitry for the common STROBE and OUTPUT ENABLE, a...
Logic Family = MIC Latch Mode = Transparent Latching Element = RS-Latch Number of Elements per Chip = 1 Number of Channels per Chip = 1 Package Type = SOIC W Pin Count = 16
The MIC59P50 parallel-input latched driver is a high-voltage (80V), high-current (500mA) integrated circuit comprised of eight CMOS data latches, a bipolar Darlington transistor driver for each lat...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
Logic Family = 74HC Latch Mode = Addressable Latching Element = D Type Number of Elements per Chip = 2 Number of Channels per Chip = 1 Output Type = CMOS Package Type = SO16 Pin Count = 16
The Nexperia 74HCT259 is an 8-bit addressable latch. The device features four modes of operation. In the addressable latch mode, data on the D input is written into the latch addressed by the input...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
74HC Family Flip-Flops ; Latches, Nexperia. A range of NXP Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to achieve operating speed...
Logic Family = 74HC Latch Mode = Transparent Latching Element = D Type Number of Elements per Chip = 16 Number of Channels per Chip = 8 Output Type = 3 State Package Type = SO20 Pin Count = 20
The Nexperia 74HCT573 is an 8-bit D-type transparent latch with 3-state outputs. The device features latch enable (LE) and output enable (OE) inputs. When LE is HIGH, data at the inputs enter the l...
Logic Family = 74HC Latch Mode = Transparent Latching Element = D Type Number of Elements per Chip = 16 Number of Channels per Chip = 8 Output Type = 3 State Package Type = TSSOP20 Pin Count = 20
The Nexperia 74HCT573 is an 8-bit D-type transparent latch with 3-state outputs. The device features latch enable (LE) and output enable (OE) inputs.Useful as input or output port for microprocesso...
Combined demultiplexer and 8-bit latch Serial-to-parallel capability Output from each storage bit available Random (addressable) data entry Easily expandable Common reset input Useful as a 3-to-8 a...
Logic Family = HCT Latch Mode = Transparent Latching Element = D Type Number of Bits = 8bit Output Type = 3 State Polarity = Non-Inverting Mounting Type = Surface Mount Package Type = SOIC Pin Coun...
Logic Family = 74HCT Latch Mode = Transparent Latching Element = D Type Number of Elements per Chip = 1 Number of Channels per Chip = 8 Output Type = 3 State Polarity = Non-Inverting Mounting Type ...
Logic Family = 74HCT Latch Mode = Transparent Latching Element = D Type Number of Bits = 8bit Output Type = 3 State Polarity = Non-Inverting Mounting Type = Surface Mount Package Type = TSSOP Pin C...
Logic Family = LVC Latch Mode = Transparent Latching Element = D Type Number of Bits = 16bit Output Type = 3 State Polarity = Non-Inverting Mounting Type = Surface Mount Package Type = SSOP Pin Cou...
Logic Family = 74LVC Latch Mode = Transparent Latching Element = D Type Number of Elements per Chip = 8 Number of Channels per Chip = 8 Output Type = 3 State Polarity = Non-Inverting Mounting Type ...
The 74LVC573A consists of eight D-type transparent latches, featuring separate D-type inputs for each latch and 3-state true outputs for bus-oriented applications. A Latch Enable (LE) input and an ...
74HC Family Flip-Flops ; Latches, Texas Instruments. Texas Instruments range of Flip-Flops and Latches from the 74HC Family of CMOS Logic ICs. The 74HC Family use silicon gate CMOS technology to ac...