SN74ALVCH16374DGGR Integrated Circuits (ICs) |
|
| Allicdata Part #: | 296-1144-2-ND |
| Manufacturer Part#: |
SN74ALVCH16374DGGR |
| Price: | $ 0.00 |
| Product Category: | Integrated Circuits (ICs) |
| Manufacturer: | Texas Instruments |
| Short Description: | IC FF D-TYPE DUAL 8BIT 48TSSOP |
| More Detail: | N/A |
| DataSheet: |  SN74ALVCH16374DGGR Datasheet/PDF |
| Quantity: | 1000 |
Specifications
| Max Propagation Delay @ V, Max CL: | 4.2ns @ 3.3V, 30pF |
| Base Part Number: | 74ALVCH16374 |
| Package / Case: | 48-TFSOP (0.240", 6.10mm Width) |
| Mounting Type: | Surface Mount |
| Operating Temperature: | -40°C ~ 85°C (TA) |
| Input Capacitance: | 3pF |
| Current - Quiescent (Iq): | 40µA |
| Voltage - Supply: | 1.65 V ~ 3.6 V |
| Current - Output High, Low: | 24mA, 24mA |
| Trigger Type: | Positive Edge |
| Series: | 74ALVCH |
| Clock Frequency: | 150MHz |
| Number of Bits per Element: | 8 |
| Number of Elements: | 2 |
| Output Type: | Tri-State, Non-Inverted |
| Type: | D-Type |
| Function: | Standard |
| Part Status: | Active |
| Packaging: | Tape & Reel (TR) |
Description
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The SN74ALVCH16374DGGR is an advanced logic Flip Flop that traditionally finds usage in microprocessors, address decoding circuits and memory circuits. It has also become popular in digital logic because of its ability to store a logical 0 or 1 inside its own memory. This makes Flip Flop a great means to store information in a very small space. As a result, Flip Flops are often found in many digital logic systems including processors, memories, clocks, and counters.
Application Field of SN74ALVCH16374DGGR
The SN74ALVCH16374DGGR is a versatile Flip Flop that can be used in many digital logic and memory applications. In microprocessors, the SN74ALVCH16374DGGR is used as a storage device, storing data in its internal memory. This data can be recalled later when needed. Additionally, Flip Flops can be used to help address decoding circuits by decoding digital addresses so the connected components know where to access data from. Flip Flops are also found in memory systems, as they help to store information in a limited space, allowing larger memory systems to be employed in digital systems.
Working Principle of SN74ALVCH16374DGGR
A Flip Flop is simply a two-input device that has two states, either a 0 or a 1. When the inputs are applied, the output either remains the same or changes depending on logic levels present at the input. SN74ALVCH16374DGGR Flip Flops work by having two inputs composed of logic signals from separate, or sometimes the same, sources. These logic signals are then ‘written’ into the internal memory of Flip Flop and it will remain as such until another signal is applied to either of the two inputs. The result is that Flip Flops can be used as a storage medium, allowing data to be stored and recalled at a later time.
The logic Flip Flop can be operated in four different modes, set (S), reset (R), direct set (DS), and direct reset (DR). The set mode is used to set the logic level to a logic 1 while the reset mode is used to set the logic level to a logic 0. The direct set and direct reset modes are used to preset the output to either a logic 1 or 0. In all four modes, when a logic signal is received at the inputs, the writing action will take place inside the Flip Flop and the value will be stored for later recollection.
SN74ALVCH16374DGGR typically uses CMOS and can operate at a temperature range from -10°C to 70°C. It is available as a DIP (dual in-line package) or SOIC (small outline integrated circuit). It can be used in either a simple switching mode or in a more complex accounting or data processing system. In essence, Flip Flops are used to store or transmit data from one machine to another or from one part of a system to another.
The SN74ALVCH16374DGGR Flip Flop is used in many digital systems to store data or transmit data. In some systems, the Flip Flop is used to store a single bit of data while in others, it is used to store multiple bits of data. Many digital systems also require the Flip Flop to detect changes in logic states as well as regenerate a new logic level. As a result, Flip Flops are used in many different types of digital systems ranging from simple logic circuits to complex microprocessors.
The use of Flip Flops in digital logic has significantly increased over the past few years. This is mainly due to the fact that Flip Flops are versatile and can be used in many different applications. They are also relatively simple to design and their small size allows for their usage in small and compact electronic devices. As a result, Flip Flops have found a wide range of usage in microprocessors, memories, address decoding circuits, and many other digital systems.
Application Field of SN74ALVCH16374DGGR
The SN74ALVCH16374DGGR is a versatile Flip Flop that can be used in many digital logic and memory applications. In microprocessors, the SN74ALVCH16374DGGR is used as a storage device, storing data in its internal memory. This data can be recalled later when needed. Additionally, Flip Flops can be used to help address decoding circuits by decoding digital addresses so the connected components know where to access data from. Flip Flops are also found in memory systems, as they help to store information in a limited space, allowing larger memory systems to be employed in digital systems.
Working Principle of SN74ALVCH16374DGGR
A Flip Flop is simply a two-input device that has two states, either a 0 or a 1. When the inputs are applied, the output either remains the same or changes depending on logic levels present at the input. SN74ALVCH16374DGGR Flip Flops work by having two inputs composed of logic signals from separate, or sometimes the same, sources. These logic signals are then ‘written’ into the internal memory of Flip Flop and it will remain as such until another signal is applied to either of the two inputs. The result is that Flip Flops can be used as a storage medium, allowing data to be stored and recalled at a later time.
The logic Flip Flop can be operated in four different modes, set (S), reset (R), direct set (DS), and direct reset (DR). The set mode is used to set the logic level to a logic 1 while the reset mode is used to set the logic level to a logic 0. The direct set and direct reset modes are used to preset the output to either a logic 1 or 0. In all four modes, when a logic signal is received at the inputs, the writing action will take place inside the Flip Flop and the value will be stored for later recollection.
SN74ALVCH16374DGGR typically uses CMOS and can operate at a temperature range from -10°C to 70°C. It is available as a DIP (dual in-line package) or SOIC (small outline integrated circuit). It can be used in either a simple switching mode or in a more complex accounting or data processing system. In essence, Flip Flops are used to store or transmit data from one machine to another or from one part of a system to another.
The SN74ALVCH16374DGGR Flip Flop is used in many digital systems to store data or transmit data. In some systems, the Flip Flop is used to store a single bit of data while in others, it is used to store multiple bits of data. Many digital systems also require the Flip Flop to detect changes in logic states as well as regenerate a new logic level. As a result, Flip Flops are used in many different types of digital systems ranging from simple logic circuits to complex microprocessors.
The use of Flip Flops in digital logic has significantly increased over the past few years. This is mainly due to the fact that Flip Flops are versatile and can be used in many different applications. They are also relatively simple to design and their small size allows for their usage in small and compact electronic devices. As a result, Flip Flops have found a wide range of usage in microprocessors, memories, address decoding circuits, and many other digital systems.
The specific data is subject to PDF, and the above content is for reference
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