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Clock Buffers & Drivers

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74AVC9112DCH

nexperia

Datasheet

800mV 3.6V 31ns VSSOP-8 SMD mount，glue mount 2.3mm(width)*850μm(height)

Quantity: 1122

In Stock

DC:25+

1+ $0.2839

100+ $0.2288

750+ $0.2032

1500+ $0.1911

3000+ $0.183

Ext. Price: $2.83

MOQ: 10

Mult: 1

SPQ: 3000

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74AVC1T1004GU33Z

nexperia

Datasheet

800mV 3.6V 4.9ns X2QFN-10 SMD mount，glue mount

Quantity: 22995

Ship Date: 9-13 working days

DC:18+

500+ $0.1524

1000+ $0.1481

5000+ $0.1481

Ext. Price: $118.26

MOQ: 776

Mult: 1

SPQ: 1

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74AVC1T1022GUX

nexperia

Datasheet

800mV 3.6V SMD mount，glue mount 1.8mm(length)*450μm(height)

Quantity: 5

Ship Date: 7 working days

1+ $0.4271

100+ $0.3235

1000+ $0.2527

2000+ $0.2072

4000+ $0.1802

Ext. Price: $0.42

MOQ: 1

Mult: 1

SPQ: 1

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74AVC9112GT

nexperia

Datasheet

800mV 3.6V

Quantity: 1771

Ship Date: 6-12 working days

100+ $0.2062

500+ $0.1824

1000+ $0.1636

5000+ $0.1537

10000+ $0.1509

Ext. Price: $24.74

MOQ: 120

Mult: 5

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74LVCH162244ADGG,118

nexperia

Quantity: 2000

Ship Date: 8-13 working days

2000+ $0.3211

6000+ $0.3182

Ext. Price: $642.20

MOQ: 2000

Mult: 2000

SPQ: 2000

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74AVC1T1004DPJ

nexperia

Datasheet

800mV 3.6V 4.9ns TSSOP-10 SMD mount，glue mount 3mm(width)*950μm(height)

Quantity: 59860

Ship Date: 9-13 working days

DC:22+

500+ $0.1363

1000+ $0.1324

5000+ $0.1324

Ext. Price: $118.30

MOQ: 868

Mult: 1

SPQ: 1

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74AVC9112GTX

nexperia

Datasheet

800mV 3.6V Digital 31ns XSON-8 SMD mount，glue mount 500μm(height)

Quantity: 5000

Ship Date: 3-12 working days

5000+ $0.146

15000+ $0.146

Ext. Price: $730.00

MOQ: 5000

Mult: 5000

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74AVC1T1022DPJ

nexperia

Datasheet

800mV 3.6V 12ns，23ns TSSOP-10 SMD mount，glue mount 3mm(width)*950μm(height)

Quantity: 32107

Ship Date: 9-13 working days

DC:22+

500+ $0.1526

1000+ $0.1484

5000+ $0.1484

Ext. Price: $118.11

MOQ: 774

Mult: 1

SPQ: 1

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74AVC1T1004DP

nexperia

Datasheet

800mV 3.6V 33ns Single ended SO 950μm(height)

Quantity: 0

Ship Date: 6-12 working days

10+ $0.2795

100+ $0.2256

500+ $0.2141

1000+ $0.1859

5000+ $0.1833

10000+ $0.1795

Ext. Price: $6.98

MOQ: 25

Mult: 5

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Clock Buffers & Drivers

Clock buffers, also known as clock drivers, are electronic components designed to enhance the performance of clock signals in digital systems. They are crucial for maintaining signal integrity and ensuring that all parts of a system operate in sync.

Definition:
A clock buffer is a type of buffer circuit that is specifically designed to condition the clock signal in digital circuits. It amplifies the clock signal to drive a larger load, reduce skew, and minimize signal degradation over long distances.

Function:
1. Amplification: Clock buffers amplify the clock signal to ensure it can drive multiple loads without significant loss of signal strength or speed.
2. Load Driving: They are used to drive a large number of flip-flops, registers, or other logic gates that require a strong and clean clock signal.
3. Skew Reduction: By buffering the clock signal, they help to reduce clock skew, which is the variation in the arrival time of the clock signal at different parts of the system.
4. Signal Integrity: They maintain the integrity of the clock signal, preventing issues like jitter and noise that can affect the reliability of the system.

Applications:
Clock buffers are used in various digital systems, including:
1. High-Speed Data Transmission: In systems where data is transmitted at high speeds, clock buffers ensure that the clock signal remains stable and synchronized.
2. Complex Integrated Circuits: In VLSI design, clock buffers are essential for distributing the clock signal across the chip without significant delay or distortion.
3. Communication Systems: They are used in communication systems to synchronize data transmission and reception.
4. Computer Systems: In computer systems, clock buffers help to synchronize the operation of the CPU, memory, and other components.

Selection Criteria:
When selecting a clock buffer, the following criteria are typically considered:
1. Load Capacity: The buffer should be able to handle the number of loads it needs to drive.
2. Propagation Delay: The delay introduced by the buffer should be minimal and consistent across all loads.
3. Skew Performance: The buffer should minimize skew to ensure that all parts of the system are synchronized.
4. Power Consumption: The buffer should be energy-efficient, especially in power-sensitive applications.
5. Noise Immunity: The buffer should be able to operate reliably in the presence of noise.
6. Temperature Stability: The performance of the buffer should not degrade significantly over the operating temperature range of the system.

In summary, clock buffers are essential components in digital systems that ensure the clock signal is robust, synchronized, and capable of driving the required loads. Their selection is based on the specific requirements of the system, including load capacity, delay, skew, power consumption, and noise immunity.
Please refer to the product rule book for details.