Infineon Technologies Parallel I/O Ports 15

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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	No. of Bits	Power Supplies (V)	Package Style (Meter)	Package Equivalence Code	Minimum Supply Voltage	Maximum Operating Temperature	CPU Family	Minimum Operating Temperature	Terminal Finish	Terminal Position	No. of Ports	Maximum Seated Height	Width	Additional Features	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Length	No. of Timers	Technology	Maximum Supply Current	Nominal Supply Voltage	Memory Organization	Sub-Category	Terminal Pitch	JESD-30 Code	Moisture Sensitivity Level (MSL)	Qualification	JESD-609 Code	No. of I/O Lines
CY8C9540A-24PVXIT	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE	INDUSTRIAL	GULL WING	48	SSOP	RECTANGULAR	PLASTIC/EPOXY	YES	5.25 V	40	3.3/5	SMALL OUTLINE	SSOP48,.4	3 V	85 Cel		-40 Cel	NICKEL PALLADIUM GOLD	DUAL	8	2.794 mm	7.5 mm	IT ALSO OPERATES AT 5 V	20	260	15.875 mm		CMOS		3.3 V		Parallel IO Port	.635 mm	R-PDSO-G48	3	Not Qualified	e4	40
CY8C9540A-24PVXI	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE	INDUSTRIAL	GULL WING	48	SSOP	RECTANGULAR	PLASTIC/EPOXY	YES	5.25 V	40	3.3/5	SMALL OUTLINE	SSOP48,.4	3 V	85 Cel		-40 Cel	NICKEL PALLADIUM GOLD	DUAL	8	2.794 mm	7.5 mm		20	260	15.875 mm		CMOS		3.3 V		Parallel IO Port	.635 mm	R-PDSO-G48	3	Not Qualified	e4	40
CY8C9520A-24PVXI	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE	INDUSTRIAL	GULL WING	28	SSOP	RECTANGULAR	PLASTIC/EPOXY	YES	5.25 V	20	3.3/5	SMALL OUTLINE	SSOP28,.3	3 V	85 Cel		-40 Cel	MATTE TIN	DUAL	8	2 mm	5.3 mm		20	260	10.2 mm		CMOS		3.3 V		Parallel IO Port	.65 mm	R-PDSO-G28	3	Not Qualified	e3	20
CY8C9560A-24AXI	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE	INDUSTRIAL	GULL WING	100	LFQFP	SQUARE	PLASTIC/EPOXY	YES	5.25 V	60	3.3/5	FLATPACK, LOW PROFILE, FINE PITCH	QFP100,.63SQ,20	3 V	85 Cel		-40 Cel	NICKEL PALLADIUM GOLD	QUAD	8	1.6 mm	14 mm		40	260	14 mm		CMOS		3.3 V		Parallel IO Port	.5 mm	S-PQFP-G100	3	Not Qualified	e4	60
CY8C9560A-24AXIT	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE	INDUSTRIAL	GULL WING	100	LFQFP	SQUARE	PLASTIC/EPOXY	YES	5.25 V	60	3.3/5	FLATPACK, LOW PROFILE, FINE PITCH	QFP100,.63SQ,20	3 V	85 Cel		-40 Cel	NICKEL PALLADIUM GOLD	QUAD	8	1.6 mm	14 mm		40	260	14 mm		CMOS		3.3 V		Parallel IO Port	.5 mm	S-PQFP-G100	3	Not Qualified	e4	60
CY8C9520A-24PVXIT	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE	INDUSTRIAL	GULL WING	28	SSOP	RECTANGULAR	PLASTIC/EPOXY	YES	5.25 V	20	3.3/5	SMALL OUTLINE	SSOP28,.3	3 V	85 Cel		-40 Cel	MATTE TIN	DUAL	8	2 mm	5.3 mm		20	260	10.2 mm		CMOS		3.3 V		Parallel IO Port	.65 mm	R-PDSO-G28	3	Not Qualified	e3	20
SAB8155-2-P	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	40	DIP	RECTANGULAR	PLASTIC/EPOXY	NO		14	5	IN-LINE	DIP40,.6		70 Cel	8085	0 Cel	Tin/Lead (Sn/Pb)	DUAL	3							1	MOS	180 mA	5 V	256X8	Parallel IO Port	2.54 mm	R-PDIP-T40		Not Qualified	e0
SAB8155-2-C	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	40	DIP	RECTANGULAR	CERAMIC	NO		14	5	IN-LINE	DIP40,.6		70 Cel	8085	0 Cel	Tin/Lead (Sn/Pb)	DUAL	3							1	MOS	180 mA	5 V	256X8	Parallel IO Port	2.54 mm	R-XDIP-T40		Not Qualified	e0
SAB82C55A-2-P	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	40	DIP	RECTANGULAR	PLASTIC/EPOXY	NO			5	IN-LINE	DIP40,.6		70 Cel		0 Cel	Tin/Lead (Sn/Pb)	DUAL									CMOS	5 mA	5 V		Parallel IO Port	2.54 mm	R-PDIP-T40		Not Qualified	e0
SAB8155-C	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	40	DIP	RECTANGULAR	CERAMIC	NO		14	5	IN-LINE	DIP40,.6		70 Cel	8085	0 Cel	Tin/Lead (Sn/Pb)	DUAL	3							1	MOS	180 mA	5 V	256X8	Parallel IO Port	2.54 mm	R-XDIP-T40		Not Qualified	e0
SAB8155-P	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	40	DIP	RECTANGULAR	PLASTIC/EPOXY	NO		14	5	IN-LINE	DIP40,.6		70 Cel	8085	0 Cel	Tin/Lead (Sn/Pb)	DUAL	3							1	MOS	180 mA	5 V	256X8	Parallel IO Port	2.54 mm	R-PDIP-T40		Not Qualified	e0
CY8C9560A-24PVXIT	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE		GULL WING	100		SQUARE	PLASTIC/EPOXY	YES				FLATPACK						MATTE TIN	QUAD									CMOS						S-PQFP-G100	3	Not Qualified	e3
CY8C9560A-24AXI1	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE		GULL WING	100		SQUARE	PLASTIC/EPOXY	YES				FLATPACK						Matte Tin (Sn)	QUAD					30	260			CMOS						S-PQFP-G100	3	Not Qualified	e3
CY8C9540A-24PVXI1	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE		GULL WING	48		RECTANGULAR	PLASTIC/EPOXY	YES				SMALL OUTLINE						Matte Tin (Sn)	DUAL					30	260			CMOS						R-PDSO-G48	3	Not Qualified	e3
CY8C9560A-24PVXI	Infineon Technologies	PARALLEL IO PORT, GENERAL PURPOSE		GULL WING	100		SQUARE	PLASTIC/EPOXY	YES				FLATPACK						MATTE TIN	QUAD									CMOS						S-PQFP-G100	3	Not Qualified	e3

Parallel I/O Ports

Parallel I/O (Input/Output) ports are a type of interface that allows a microcontroller or microprocessor to communicate with other devices in a parallel fashion. This means that multiple bits of data can be transmitted or received simultaneously, as opposed to serial communication which transmits or receives data one bit at a time.

Parallel I/O ports are commonly found in a wide range of electronic devices, including computers, printers, and industrial control systems. They typically consist of a number of input and output lines, with each line representing a single bit of data. The number of lines can vary depending on the specific device, with some systems having only a few lines while others may have dozens or even hundreds.

One of the advantages of parallel I/O ports is their ability to transfer large amounts of data quickly and efficiently. This makes them particularly useful in applications where real-time data acquisition or high-speed communication is required. For example, parallel ports are commonly used in printers and other peripherals to transfer large amounts of data quickly.

However, one of the limitations of parallel I/O ports is that they require a large number of pins on the microcontroller or microprocessor to accommodate all of the data lines. This can make them difficult to implement in systems with limited space or where a large number of I/O lines are required. In addition, parallel I/O ports can be more susceptible to noise and interference compared to serial communication, which can affect data integrity and transmission speeds.