BGA Latches & Flip-Flops 10

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Part	Manufacturer	Logic IC Type	Temperature Grade	Terminal Form	No. of Terminals	Package Code	Package Shape	Package Body Material	Surface Mount	No. of Functions	Technology	No. of Bits	Nominal Supply Voltage / Vsup (V)	Power Supplies (V)	Package Style (Meter)	Package Equivalence Code	Propagation Delay (tpd)	Sub-Category	Terminal Pitch	Maximum Operating Temperature	Trigger Type	Terminal Finish	Terminal Position	Minimum fmax	JESD-30 Code	Moisture Sensitivity Level (MSL)	Maximum Supply Voltage (Vsup)	Qualification	Output Polarity	Minimum Supply Voltage (Vsup)	Additional Features	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Family
74SSTU32864DBF	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU
74SSTU32864GBF	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1	CMOS	25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU
74SSTU32864DBF8	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU
74SSTU32864ABF	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU
74SSTU32864CBF	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU
74SSTU32864BF8	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU
74SSTU32864BF	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU
74SSTU32864GBF8	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96		1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0			SSTU
74SSTU32864ABF8	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE		BOTTOM	340 MHz	R-PBGA-B96	1	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE				SSTU
74SSTU32864CBF8	Renesas Electronics	D FLIP-FLOP	COMMERCIAL	BALL	96	BGA	RECTANGULAR	PLASTIC/EPOXY	YES	1		25	1.8	1.8	GRID ARRAY	BGA96,6X16,32	2.35 ns	Other Logic ICs	.8 mm	70 Cel	POSITIVE EDGE	TIN LEAD	BOTTOM	340 MHz	R-PBGA-B96	3	1.9 V	Not Qualified	TRUE	1.7 V	14 BIT 1:2 CONFIGURATION ALSO POSSIBLE	e0	30	225	SSTU

Latches & Flip-Flops

Latches and flip-flops are two types of electronic circuits used in digital systems to store and manipulate digital data. They are both sequential logic circuits, meaning that they can store information and use that information to make decisions based on the previous state.

A latch is a type of digital circuit that can hold or "latch" a signal in its current state. It is a simple memory element that can store a single bit of information. A latch can be transparent or opaque, depending on its behavior when the clock signal is active. A transparent latch passes the input signal through to the output when the clock signal is active, while an opaque latch holds the input signal at the output when the clock signal is active.

Flip-flops are similar to latches but are more sophisticated and have additional control inputs. A flip-flop is a digital circuit that can store one bit of information and change its state based on the clock signal and input signals. Flip-flops can be edge-triggered or level-triggered, depending on how they respond to the clock signal. Edge-triggered flip-flops change their state at the rising or falling edge of the clock signal, while level-triggered flip-flops change their state continuously as long as the clock signal is active.

Flip-flops are classified into various types based on their behavior and the number of inputs. Some of the commonly used flip-flops include D flip-flops, JK flip-flops, T flip-flops, and SR flip-flops. D flip-flops have a single data input and a clock input and can store one bit of information. JK flip-flops have two inputs, J and K, and can store one bit of information. T flip-flops have a single input and can toggle between two states based on the clock signal. SR flip-flops have two inputs, S and R, and can store one bit of information.

Latches and flip-flops are used in various applications, including digital signal processing, memory systems, and control circuits. They are essential components of digital systems and can be found in many electronic devices, such as computers, mobile phones, and digital cameras.