Allicdata Part #: | 497-7120-2-ND |
Manufacturer Part#: |
74LVX574TTR |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | STMicroelectronics |
Short Description: | IC FF D-TYPE SNGL 8BIT 20TSSOP |
More Detail: | N/A |
DataSheet: | 74LVX574TTR Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Max Propagation Delay @ V, Max CL: | 16.7ns @ 3.3V, 50pF |
Base Part Number: | 74LVX574 |
Package / Case: | 20-TSSOP (0.173", 4.40mm Width) |
Mounting Type: | Surface Mount |
Operating Temperature: | -55°C ~ 125°C (TA) |
Input Capacitance: | 4pF |
Current - Quiescent (Iq): | 4µA |
Voltage - Supply: | 2 V ~ 3.6 V |
Current - Output High, Low: | 4mA, 4mA |
Trigger Type: | Positive Edge |
Series: | 74LVX |
Clock Frequency: | 75MHz |
Number of Bits per Element: | 8 |
Number of Elements: | 1 |
Output Type: | Tri-State, Non-Inverted |
Type: | D-Type |
Function: | Standard |
Part Status: | Obsolete |
Packaging: | Tape & Reel (TR) |
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The 74LVX574TTR is a logic-based flip-flop circuit that is used in a wide variety of applications, from consumer electronics to complex computer systems. The circuit is useful for memory storage, data communication, and synchronization, among other operations. Understanding the 74LVX574TTR circuit’s application field and working principle can help engineers build more efficient and reliable electronic systems.
Application Field
The 74LVX574TTR flip-flop circuit is used for both combinatorial and sequential logic applications. Combinatorial designs involve creating circuits composed of logic gates that take multiple digital inputs and generate a single, desired output. Sequential logic designs are those using multiple logic gates to produce an output that is a function of the present inputs and the previous output state.For example, in consumer electronics, the 74LVX574TTR can be used to create a latch circuit capable of monitoring and controlling the power on and off of a device. Such applications typically involve multiple inputs and outputs, and the 74LVX574TTR is capable of handling both digital and analog signals. Additionally, the 74LVX574TTR’s low power consumption makes it suitable for use in battery-powered devices.
In computer systems, the 74LVX574TTR is used for memory storage applications. This logic circuit helps maintain information in memory banks, thus decreasing response times and making applications more efficient. Additionally, the 74LVX574TTR is used to synchronize data between components; such as a processor and a RAM. This helps ensure data is handled correctly, even when data changes rapidly.
Working Principle
The 74LVX574TTR is a dual-input, dual-output device that uses the base flip-flop logic circuit. This device is a latch circuit, which means it is capable of holding data even when power is turned off thanks to its two non-inverting outputs. In this logic-based circuit, two clock inputs, a clear input and two data inputs, D and SET, control the two outputs, Q and ~Q (complementary output).
When designing circuits with the 74LVX574TTR, the clock inputs are connected together with one clock input going to each latch so that both latches can be controlled from a single clock pulse. For data input, D and Q trigger the first latch, while SET triggers the second latch. It should be noted that D and SET inputs must not be at the same state in order for the latch to work. When the SET is in the HIGH state, the output Q is also in the HIGH state, and the output ~Q is in the LOW state.
The 74LVX574TTR flip-flop circuit is capable of fast operation with speeds up to 40 Mhz. Additionally, it operates on low power, making it suitable for use in a variety of applications. The overall design of the 74LVX574TTR calls for the outputs to have an impedance of 50 ohms when clocked and unclocked. The outputs of this circuit can operate on voltages between -2 volts and 5.5 volts.
Conclusion
Overall, the 74LVX574TTR flip-flop circuit is a useful tool for many applications. With its low power consumption and fast operation, it is a viable option for both consumer electronics and complex computer systems. Understanding the application field and working principle of this circuit can help engineers create systems that are efficient, reliable, and cost-effective.
The specific data is subject to PDF, and the above content is for reference
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