LFBGA Clock Generators 8

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Part	Manufacturer	Peripheral IC Type	Temperature Grade	Terminal Form	No. of Terminals	Package Code	Package Shape	Package Body Material	Surface Mount	Maximum Supply Voltage	Maximum Output Clock Frequency	Package Style (Meter)	Package Equivalence Code	Minimum Supply Voltage	Maximum Operating Temperature	Minimum Operating Temperature	Terminal Finish	Terminal Position	Maximum Seated Height	Width	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Length	Technology	Maximum Supply Current	Nominal Supply Voltage	Terminal Pitch	JESD-30 Code	Moisture Sensitivity Level (MSL)	Nominal Primary Clock/Crystal Frequency	JESD-609 Code
8V19N472BFGI8	Renesas Electronics	JITTER ATTENUATOR	INDUSTRIAL	BALL	81	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	3000 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH	BGA81,9X9,32	3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	8 mm		260	8 mm	CMOS	789 mA	3.3 V	.8 mm	S-PBGA-B81	3	307.2 MHz	e1
8V19N474BFGI8	Renesas Electronics	JITTER ATTENUATOR	INDUSTRIAL	BALL	81	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	2500 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH	BGA81,9X9,32	3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	8 mm		260	8 mm	CMOS	797 mA	3.3 V	.8 mm	S-PBGA-B81	3	250 MHz	e1
LMK04616ZCRR	Texas Instruments	CLOCK GENERATOR, PROCESSOR SPECIFIC	INDUSTRIAL	BALL	144	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	2000 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH		3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	10 mm	30	260	10 mm	CMOS	28.6 mA	3.3 V	.8 mm	S-PBGA-B144	3	600 MHz	e1
LMK04616ZCRT	Texas Instruments	CLOCK GENERATOR, PROCESSOR SPECIFIC	INDUSTRIAL	BALL	144	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	2000 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH		3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	10 mm	30	260	10 mm	CMOS	28.6 mA	3.3 V	.8 mm	S-PBGA-B144	3	600 MHz	e1
8V19N474BFGI	Renesas Electronics	JITTER ATTENUATOR	INDUSTRIAL	BALL	81	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	2500 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH	BGA81,9X9,32	3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	8 mm		260	8 mm	CMOS	797 mA	3.3 V	.8 mm	S-PBGA-B81	3	250 MHz	e1
8V19N472BFGI	Renesas Electronics	JITTER ATTENUATOR	INDUSTRIAL	BALL	81	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	3000 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH	BGA81,9X9,32	3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	8 mm		260	8 mm	CMOS	789 mA	3.3 V	.8 mm	S-PBGA-B81	3	307.2 MHz	e1
8V19N470BFGI8	Renesas Electronics	CLOCK GENERATOR, PROCESSOR SPECIFIC	INDUSTRIAL	BALL	81	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	2949.12 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH	BGA81,9X9,32	3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	8 mm		260	8 mm	CMOS		3.3 V	.8 mm	S-PBGA-B81	3	307.2 MHz	e1
8V19N470BFGI	Renesas Electronics	CLOCK GENERATOR, PROCESSOR SPECIFIC	INDUSTRIAL	BALL	81	LFBGA	SQUARE	PLASTIC/EPOXY	YES	3.465 V	2949.12 MHz	GRID ARRAY, LOW PROFILE, FINE PITCH	BGA81,9X9,32	3.135 V	85 Cel	-40 Cel	TIN SILVER COPPER	BOTTOM	1.5 mm	8 mm		260	8 mm	CMOS		3.3 V	.8 mm	S-PBGA-B81	3	307.2 MHz	e1

Clock Generators

A clock generator is an electronic circuit that generates an electrical signal that serves as a timing reference for other circuits in a system. Clock generators are used in many electronic devices, such as computers, cell phones, and digital cameras. The clock signal is used to synchronize the operation of different components in the system, such as microprocessors, memory devices, and input/output interfaces.

Clock generators can be classified based on their output frequency and stability. Some clock generators produce a fixed frequency output, while others have a programmable output frequency. The stability of the clock signal is also an important parameter, and clock generators can be designed to produce a stable frequency output over a wide range of temperature and voltage conditions.

Clock generators can also include additional features such as frequency multiplication, frequency division, and phase locking. Frequency multiplication allows the output frequency to be multiplied by an integer value, while frequency division allows the output frequency to be divided by an integer value. Phase locking is used to ensure that the output frequency of the clock generator is synchronized with an external reference signal.