22 Digital Transmission Interfaces 10

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Part	Manufacturer	Telecom IC Type	Temperature Grade	Terminal Form	No. of Terminals	Package Code	Package Shape	Package Body Material	Surface Mount	No. of Functions	Technology	Maximum Supply Current	Nominal Supply Voltage	Power Supplies (V)	ISDN Access Rate	Package Style (Meter)	Package Equivalence Code	Sub-Category	Terminal Pitch	Maximum Operating Temperature	Minimum Output High Voltage	Maximum Output Low Voltage	Standard	Terminal Finish	Terminal Position	Data Rate	JESD-30 Code	Reference Point	Maximum Seated Height	Width	Qualification	Maximum Output Low Current	JESD-609 Code	Length
MTC-20172-PD	Onsemi	ISDN CONTROLLER	COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO	1			5 V			IN-LINE			2.54 mm	70 Cel					DUAL		R-PDIP-T22		5.59 mm	10.16 mm	Not Qualified			27.685 mm
MC145422P	NXP Semiconductors	DIGITAL SLIC	COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO	1		10 mA	5 V			IN-LINE	DIP22,.4		2.54 mm	70 Cel					DUAL	.08 Mbps	R-PDIP-T22		5.08 mm	10.16 mm				27.94 mm
MC145426P	NXP Semiconductors	DIGITAL SLIC	COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO	1		10 mA	5 V			IN-LINE	DIP22,.4		2.54 mm	70 Cel					DUAL	.08 Mbps	R-PDIP-T22		5.08 mm	10.16 mm				27.94 mm
PEB2080-P	Infineon Technologies	DIGITAL SLIC	COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO	1	CMOS		5 V	5	BASIC	IN-LINE	DIP22,.4	Digital Transmission Interfaces	2.54 mm	70 Cel	2.4 V	.45 V	CCITT I.430	TIN LEAD	DUAL	.144 Mbps	R-PDIP-T22	S/T	4.2 mm	7.62 mm	Not Qualified	7 Amp	e0	22.7 mm
PEB2080-C	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	CERAMIC	NO		CMOS		5 V	5	BASIC	IN-LINE	DIP22,.4	Digital Transmission Interfaces	2.54 mm	70 Cel	2.4 V	.45 V	CCITT I.430	Tin/Lead (Sn/Pb)	DUAL	.144 Mbps	R-XDIP-T22	S/T			Not Qualified	7 Amp	e0
PEB2080A4P	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO		CMOS		5 V	5	BASIC	IN-LINE	DIP22,.4	Digital Transmission Interfaces	2.54 mm	70 Cel			CCITT I.430	Tin/Lead (Sn/Pb)	DUAL	.144 Mbps	R-PDIP-T22	S/T			Not Qualified		e0
PEB2080A8P	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO		CMOS		5 V	5	BASIC	IN-LINE	DIP22,.4	Digital Transmission Interfaces	2.54 mm	70 Cel			CCITT I.430	Tin/Lead (Sn/Pb)	DUAL	.144 Mbps	R-PDIP-T22	S/T			Not Qualified		e0
PEB2080A5P	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO		CMOS		5 V	5	BASIC	IN-LINE	DIP22,.4	Digital Transmission Interfaces	2.54 mm	70 Cel			CCITT I.430	Tin/Lead (Sn/Pb)	DUAL	.144 Mbps	R-PDIP-T22	S/T			Not Qualified		e0
PEB2080	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO		CMOS		5 V	5	BASIC	IN-LINE	DIP22,.4	Digital Transmission Interfaces	2.54 mm	70 Cel			CCITT I.430	Tin/Lead (Sn/Pb)	DUAL	.144 Mbps	R-PDIP-T22	S/T			Not Qualified		e0
PEB2025A2P	Infineon Technologies		COMMERCIAL	THROUGH-HOLE	22	DIP	RECTANGULAR	PLASTIC/EPOXY	NO		CMOS			5,-12/-60		IN-LINE	DIP22,.4	Digital Transmission Interfaces	2.54 mm	70 Cel	2.4 V	.45 V	CCITT I.430	Tin/Lead (Sn/Pb)	DUAL		R-PDIP-T22	S			Not Qualified	2 Amp	e0

Digital Transmission Interfaces

Digital Transmission Interfaces are electronic components that enable the efficient transfer of digital signals between devices in communication systems. These interfaces are used in a wide range of applications, including computer networking, telecommunications, and consumer electronics. They provide a means of transmitting digital data over various communication channels, such as Ethernet networks, USB cables, and wireless communication protocols.

Digital Transmission Interfaces use a variety of protocols and standards to ensure the reliable and efficient transmission of data. These protocols include packet framing, which involves adding header and footer information to each data packet to enable proper routing and error detection. Error correction techniques are also used to ensure that the transmitted data is accurately received, even in the presence of noise or other transmission errors. Flow control is another important aspect of digital transmission, which helps to prevent data loss or congestion by regulating the flow of data between the transmitting and receiving devices.

There are several different types of Digital Transmission Interfaces, each designed for a specific communication channel or protocol. Ethernet is a popular interface used for wired networking, while USB is commonly used for connecting peripherals to computers and mobile devices. Bluetooth and Wi-Fi are wireless communication protocols used for short-range and long-range data transmission, respectively. Serial Interfaces, such as RS-232 and RS-485, are used for point-to-point data communication over long distances.

Digital Transmission Interfaces offer several advantages over analog communication systems. They provide higher data rates, increased noise immunity, and more efficient use of transmission bandwidth. They also offer greater flexibility and ease of use, enabling seamless integration with other digital systems. However, Digital Transmission Interfaces also require specialized hardware and software, and may be susceptible to data loss or corruption due to transmission errors.