Allicdata Part #: | MM74HCT373N-ND |
Manufacturer Part#: |
MM74HCT373N |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | ON Semiconductor |
Short Description: | IC LATCH OCTAL D 3 STATE 20-DIP |
More Detail: | D-Type Transparent Latch 1 Channel 8:8 IC Tri-Stat... |
DataSheet: | MM74HCT373N Datasheet/PDF |
Quantity: | 1000 |
Series: | 74HCT |
Packaging: | Tube |
Part Status: | Obsolete |
Logic Type: | D-Type Transparent Latch |
Circuit: | 8:8 |
Output Type: | Tri-State |
Voltage - Supply: | 4.5 V ~ 5.5 V |
Independent Circuits: | 1 |
Delay Time - Propagation: | 25ns |
Current - Output High, Low: | 7.2mA, 7.2mA |
Operating Temperature: | -40°C ~ 85°C |
Mounting Type: | Through Hole |
Package / Case: | 20-DIP (0.300", 7.62mm) |
Supplier Device Package: | 20-PDIP |
Base Part Number: | 74HCT373 |
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The MM74HCT373N is a six-bit D-type latch designed with a 3-state output interface. This latch is designed to function as a low-voltage, high-speed logic element. The MM74HCT373N can be used to latch input data, or it can be used as a shift register in an analog or digital circuit. The 3-state output interface allows the user to switch between multiple outputs and can be used to store data in memory devices. The latch can also be used to implement multi-bit buses in digital systems.
The MM74HCT373N is classified as a logic-latch due to its function and structure. A latch is a digital logic circuit which is used to store one bit of data, that is, a binary one or zero. The circuit will remember the data unless it is reset by another input. It is characterized by having two stable states, namely, Set and Reset. Unlike a flip-flop which holds and stores data until an external signal is applied, a latch is a simple circuit mechanism and can be used to store a single data bit.
The MM74HCT373N is an asynchronous device, meaning it will work without any external timing signals. It features a bus hold feature which allows the data present at the input to be held without any additional circuit. The latch also features a very small propagation delay and minimal power requirements. These features make the MM74HCT373N suitable for use in speed-critical systems. The device has a large variety of applications, such as in bus arbitration, data latching, memory decoding, and register file applications.
The MM74HCT373N device is a six-bit push-pull latch made up of six independent latches connected in parallel. Each of these latches is triggered by an active transition from low (0) to high (1). The data latched into the latch is held until the chip is reset or the enable inputs are activated. The MM74HCT373N can operate from a single 5 V supply. It also offers three enable inputs, Q, D and E inputs, for each latch. The enable inputs enable the user to select either a data or enable state which affects the current latch state.
The MM74HCT373N has a number of advantages. One major advantage of the chip is its ability to accept a very low power supply of only 5 V. This makes it very suitable in low power systems. The device features an open-drain logic, meaning the user can select the level logic outputs, either high or low by using pull-up or pull-down resistors. This removes the need for extensive external circuitry and helps reduce the cost of the system. The device is also Schmitt-trigger compatible, meaning it will not be sensitive to slow changes in voltage levels due to motion or other external effects. The device also has a low input current and a very low propagation delay of about 4 ns.
Overall, the MM74HCT373N is a cost-effective and efficient logic latch and digital logic circuit. It has a wide variety of applications, ranging from bus arbitration, data latching, memory decoding, and register file applications. Its low power requirements and relatively low propagation delay also make it suitable for speed-critical applications. The device also has an open-drain architecture which reduces the need for external circuitry. All of these features make the MM74HCT373N an ideal choice for multiple signal-based systems.
The specific data is subject to PDF, and the above content is for reference
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