Clock/Timing - Clock Buffers, Drivers

Image	Part Number	Description / PDF	Quantity	Rfq
	PI49FCT32805HE Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:5 133MHZ 20SSOP	0
	PI49FCT807TSE Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:10 50MHZ 20SOIC	0
	PI49FCT805CTSE Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:5 100MHZ 20SOIC	0
	PI49FCT805CTQE Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:5 100MHZ 20QSOP	0
	PI6C185-00QEX Zetex Semiconductors (Diodes Inc.)	IC CLK BUFF 1:7 133.3MHZ 20QSOP	0
	PI49FCT32807SE Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:10 133MHZ 20SOIC	0
	PI6C185-01QEX Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:5 140MHZ 16QSOP	0
	PI6C18551WEX Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:4 160MHZ 8SOIC	0
	PI49FCT3805AHEX Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:5 66MHZ 20SSOP	0
	PI49FCT3807CS Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:10 100MHZ 20SOIC	0
	PI6C10806LE Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:6 250MHZ 16TSSOP	0
	PI49FCT3803QE Zetex Semiconductors (Diodes Inc.)	IC CLK BUFFER 1:7 156MHZ 16QSOP	0
	PI49FCT38052CHE Zetex Semiconductors (Diodes Inc.)	CLOCK BUFFER SSOP-20	0
	PS7M809MTE Zetex Semiconductors (Diodes Inc.)	IC CLOCK	0
	PI6CX220-212DEDR Zetex Semiconductors (Diodes Inc.)	CLOCK VCXO	0
	PI6CX220-187DEDR Zetex Semiconductors (Diodes Inc.)	CLOCK VCXO	0
	PS7M809RTEX Zetex Semiconductors (Diodes Inc.)	IC CLOCK	0
	PS7M809STEX Zetex Semiconductors (Diodes Inc.)	IC CLOCK	0
	PS7C8563WEX Zetex Semiconductors (Diodes Inc.)	IC CLOCK	0
	PS7M809MTEX Zetex Semiconductors (Diodes Inc.)	IC CLOCK	0

Clock/Timing - Clock Buffers, Drivers

1. Overview

Clock buffers and drivers are integrated circuits (ICs) designed to distribute clock signals in electronic systems. They amplify, condition, and route timing signals to multiple destinations while minimizing skew, jitter, and signal degradation. These components are critical in synchronizing operations across processors, memory modules, communication interfaces, and other timing-sensitive circuits. Their importance spans industries such as telecommunications, automotive, and high-performance computing.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Clock Buffers	Single-input, multiple-output devices with low phase noise and skew	CPU clock distribution, FPGA systems
Clock Drivers	High-drive capability for fan-out applications	Networking switches, server motherboards
Differential Clock Buffers	Supports LVDS, HCSL, and CML signal types	High-speed ADC/DAC systems, RF transceivers
Programmable Clock Buffers	Configurable output frequency/division ratios	Industrial automation, test equipment

3. Structure and Composition

Clock buffers/drivers typically consist of:

Input receivers (single-ended or differential)
Internal amplification stages
Output drivers with controlled impedance
Power supply decoupling structures
Thermal management pads (in QFN/SSOP packages)

They are fabricated using CMOS, Bipolar, or SiGe processes to optimize speed and noise performance.

4. Key Technical Specifications

Parameter	Description	Importance
Max Operating Frequency	Up to 1.2 GHz (CMOS), 3.2 GHz (SiGe)	Determines application suitability for high-speed systems
Additive Phase Jitter	0.05 ps RMS to 1 ps RMS	Impacts timing precision in data converters
Propagation Delay	50 ps to 5 ns	Critical in synchronized multi-channel systems
Output Voltage Levels	LVCMOS, LVDS, HSTL, etc.	Ensures compatibility with downstream circuits
Supply Voltage	1.8V to 5V	Affects power consumption and integration

5. Application Areas

Telecommunications: 5G base stations, optical transceivers
Computing: Servers, workstations, high-end PCs
Industrial: PLCs, motor controllers, test instruments
Automotive: ADAS clock synchronization, infotainment systems

Case Study: In 5G massive MIMO systems, low-jitter clock drivers ensure phase coherence across 64+ antenna elements.

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Specifications
TI (Texas Instruments)	CDCE62005	3.2 GHz LVDS driver, 0.1 ps RMS jitter
Analog Devices	ADCLK846	16-output clock buffer, 1.6 GHz bandwidth
STMicroelectronics	DF1610S	1.8V/3.3V dual supply buffer, 8 outputs
ON Semiconductor	MC100EP195	Differential ECL buffer, 2.5 GHz operation

7. Selection Recommendations

Key considerations:

Match output type to receiver requirements (LVDS/CML/LVCMOS)
Calculate required fan-out capacity with voltage margin
Specify jitter budget (e.g., <0.3 ps RMS for 10 Gbps SerDes)
Consider temperature stability (-40 C to +125 C automotive grade)
Optimize package size vs. thermal dissipation needs

8. Industry Trends

Future developments include:

Sub-100 fs jitter performance using advanced CMOS processes
Integration with PLL/VCO for clock generation
Multi-die packaging for hybrid signal conditioning
Energy-efficient designs for battery-powered IoT devices
Automotive-grade ICs with AEC-Q100 qualification