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Part : MT8972AC Supplier : Mitel Networks Manufacturer : Bristol Electronics Stock : 11 Best Price : $10.1250 Price Each : $15.00
Part : MT8972AP Supplier : Mitel Networks Manufacturer : Bristol Electronics Stock : 28 Best Price : $6.7969 Price Each : $10.8750
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MT8972 Datasheet

Part Manufacturer Description PDF Type
MT89726 Mitel Semiconductor 0.3-7.0V 40mA loop expender circuit. For digital subcriber lines Original
MT89728 Mitel Semiconductor 0.3-7.0V 40mA loop expender circuit. For digital subcriber lines Original
MT8972A Zarlink Semiconductor Original
MT8972AC Mitel Semiconductor Digital Network Interface Circuit Scan
MT8972AE Mitel Semiconductor Digital Network Interface Circuit Scan
MT8972AP Mitel Semiconductor Digital Network Interface Circuit Scan
MT8972B Mitel Semiconductor Digital Subscriber Interface Circuit, Digital Network Interface Circuit Original
MT8972B Zarlink Semiconductor Digital Subscriber Interface Circuit Original
MT8972BC Mitel Semiconductor ISO2-CMOS ST-BUS FAMILY Digital Subscriber Interface Circuit Digital Network Interface Circuit Original
MT8972BC Zarlink Semiconductor Interface, Digital Subscriber Interface Circuit Original
MT8972BC Zarlink Semiconductor Digital Subscriber Interface Circuit Digital Network Interface Circuit Original
MT8972BC Mitel Semiconductor Digital Subscriber Interface Circuit Digital Network Interface Circuit Scan
MT8972BE Mitel Semiconductor ISO2-CMOS ST-BUS FAMILY Digital Subscriber Interface Circuit Digital Network Interface Circuit Original
MT8972BE Zarlink Semiconductor Interface, Digital Subscriber Interface Circuit Original
MT8972BE Zarlink Semiconductor Digital Subscriber Interface Circuit Digital Network Interface Circuit Original
MT8972BE Mitel Semiconductor Digital Subscriber Interface Circuit Digital Network Interface Circuit Scan
MT8972BP Mitel Semiconductor ISO2-CMOS ST-BUS FAMILY Digital Subscriber Interface Circuit Digital Network Interface Circuit Original
MT8972BP Zarlink Semiconductor Interface, Digital Subscriber Interface Circuit Original
MT8972BP Zarlink Semiconductor Digital Subscriber Interface Circuit Digital Network Interface Circuit Original
MT8972BP Mitel Semiconductor Digital Subscriber Interface Circuit Digital Network Interface Circuit Scan
Showing first 20 results.

MT8972

Catalog Datasheet MFG & Type PDF Document Tags

IN5817

Abstract: MH89726 MT8972. The gain of the transmit signal may be adjusted through the use of an external resistor , . Connect to LIN (Pin 21) of MT8972. 10 TXIN Transmit Input. Connect to LOUT (Pin 1) of MT8972. , signal is then output on RXOUT which is connected to LIN of the MT8972. Figure 4 shows a typical , 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved , MH89726/728 ® MT8972 Loop Extender Circuits Advance Information Features ISSUE 2
Mitel Semiconductor
Original
MH89726 MH89728 IN5817

dnic

Abstract: LF411 Application Sheet MSAS-46 Loop Extender Circuit for the MT8972 DNIC ® ISSUE 1 The circuit shown in Figure 1 may be used to extend the line length over which the MT8972 can operate. The , circuit for a bit error rate of 10-6 is summarized in Tables 2 and 3. April 1986 The MT8972 expects , application of the loop extender circuit. Jumpers allow the reconfiguration of the circuit from MT8972 alone to MT8972 with loop extender. This switchable configuration allows the MT8972 and loop extender
Mitel Semiconductor
Original
LF411 dnic LF 353 160KB transformer dnic 36nF

telephone* -"transmission lines" awg attenuation

Abstract: MT8972 of these hybrids makes them suitable for line card or terminal use with the MT8972. The gain of the , production testing. Leave unconnected. 9 rxout Receive Output. Connect to L,N (Pin 21) of MT8972. 10 TX,N Transmit Input. Connect to Lqut (Pin "I ) °f MT8972. 9-108 Advance Information MH89726/728 Functional , which is connected to L!N of the MT8972. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved may vary depending on the characteristics of the transmission
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telephone* -"transmission lines" awg attenuation atx 24 pin circuit diagram 4-wire to 2-wire hybrid H89726/728

MT8972

Abstract: telephone* "transmission lines" awg attenuation hybrids makes them suitable for line card or terminal use with the MT8972. The gain of thetransmit signal , production testing. Leave unconnected. 9 rxout Receive Output. Connect to L!N (Pin 21) of MT8972. 10 TXin Transmit Input. Connect to Lqut (Pin 1) of MT8972. 9-102 This Material Copyrighted By Its Respective , receive signal. The signal is then output on RXout which is connected to Lin of the MT8972. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved may vary
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telephone* "transmission lines" awg attenuation atx power supply diagram 9161-002-075-NA 24AWG

telephone* "transmission lines" awg attenuation

Abstract: IN5817 MT8972. The gain of the transmit signal may be adjusted through the use of an external resistor , ) of MT8972. 10 TXIN Transmit Input. Connect to LOUT (Pin 1) of MT8972. 10-128 , which is connected to LIN of the MT8972. Figure 4 shows a typical application of the LEC. On short , obtained by using the LEC with the MT8972. Actual distance achieved may vary depending on the , MH89726/728 ® MT8972 Loop Extender Circuits Advance Information Features ISSUE 2
Mitel Semiconductor
Original

4-wire to 2-wire hybrid

Abstract: 12 km fm transmitter production testing. Leave unconnected. 9 Rxout Receive Output: Connect to L,N {Pin 21) of MT8972. 10 TXin Transmit Input: Connect to LOUt (Pin 1) of MT8972. 4-204 This Material Copyrighted By Its Respective , adjustment of the receive signal- The signal is then output on RXqut which is conrected to L,n of the MT8972. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved , © MITEL' MH89728 and MH89726 MT8972 Loop Extender Circuits Advance Information Features â
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12 km fm transmitter fm transmitter 10 KM transmission line transformer M5817 fm transmitter 3 KM 9161-002-075NA V1T8972 MH89728/726

MT8972

Abstract: MT8972 application circuits MT8972. The gain of the transmit signal may be adjusted through the use of an external resistor , ) of MT8972. 10 TXIN Transmit Input. Connect to LOUT (Pin 1) of MT8972. 9-108 , which is connected to LIN of the MT8972. Figure 4 shows a typical application of the LEC. On short , obtained by using the LEC with the MT8972. Actual distance achieved may vary depending on the , MH89726/728 ® MT8972 Loop Extender Circuits Advance Information Features ISSUE 2
Zarlink Semiconductor
Original
MT8972 application circuits
Abstract: or terminal use with the MT8972. The gain of the transmit signal may be adjusted through the use of , . Test. Used for production testing. Leave unconnected. Receive Output. Connect to LIN (Pin 21) of MT8972. Transmit Input. Connect to LOUT (Pin 1) of MT8972. 2 3 4 5 6 7 8 9 10 TXOUT RXINRXIN+ VVBias V+ TEST , the receive signal. The signal is then output on RXOUT which is connected to LIN of the MT8972. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved may Mitel Semiconductor
Original

MT8972

Abstract: LF 353 Application Sheet MSAS-46 Loop Extender Circuit for the MT8972 DNIC ® ISSUE 1 April 1986 The MT8972 expects to receive a composite signal on LIN (Pin #21) which should be one-half of V LOUT , the line length over which the MT8972 can operate. The configuration of the circuit is the same for , application of the loop extender circuit. Jumpers allow the reconfiguration of the circuit from MT8972 alone to MT8972 with loop extender. This switchable configuration allows the MT8972 and loop extender
Mitel Semiconductor
Original

IN5817

Abstract: MH89726 MT8972. The gain of the transmit signal may be adjusted through the use of an external resistor , ) of MT8972. 10 TXIN Transmit Input. Connect to LOUT (Pin 1) of MT8972. 9-108 , which is connected to LIN of the MT8972. Figure 4 shows a typical application of the LEC. On short , obtained by using the LEC with the MT8972. Actual distance achieved may vary depending on the , MH89726/728 ® MT8972 Loop Extender Circuits Advance Information Features ISSUE 2
Mitel Semiconductor
Original

dnic

Abstract: 32X64 the ST-BUS (in slave mode the MT8972 generates the frame pulse). When the MT8972's ST-BUS access , application in Figure 6 shows MT8972's in Dual Port Mode, in a network line card application. The MT8972 , Out Figure 4 - ST-BUS Basic Rate Channel Structure for the MT8930 and the MT8972 (Single Port Mode , the MT8972 (Dual Port Mode) To be considered complete, a family of ISDN components must support all , MT8972 (DNIC) S0 Interface MT8930 (SNIC) S1 Interface MT8978, MH89780 (CEPT 2048 kbit/s
Zarlink Semiconductor
Original
MSAN-128 32X64 MH89760 MH89790
Abstract: MT8972. The g a m o f the tra n s m it sign al m ay be a d ju s te d through the use of an external , out Receive O utput: Connect to L im (Pin 2 1) of MT8972. 10 t x in Transm it Input: Connect to Lq u t (Pin 1) of MT8972. 4-204 Advance Information Functional Description The MH89728 , MT8972. Tables 1 and 2 show typical results o b ta in ed by using the LEC w ith the MT8972. Actual , MH89728 and MH89726 MT8972 Loop Extender Circuits M ITEL © Advance Information -
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MT8994

Abstract: MH89500 the ST-BUS (in slave mode the MT8972 generates the frame pulse). When the MT8972's ST-BUS access , application in Figure 6 shows MT8972's in Dual Port Mode, in a network line card application. The MT8972 , Out Figure 4 - ST-BUS Basic Rate Channel Structure for the MT8930 and the MT8972 (Single Port Mode , the MT8972 (Dual Port Mode) To be considered complete, a family of ISDN components must support all , . ISDN FUNCTION ST-BUS COMPONENT U Interface MT8972 (DNIC) S0 Interface MT8930 (SNIC
Mitel Semiconductor
Original
MT8994 MH89500 1488 1489 standard MT8940

4-wire to 2-wire hybrid

Abstract: IN5817 hybrids makes them suitable for line card or terminal use with the MT8972. The gain of the transmit , testing. Leave unconnected. 9 RXOUT Receive Output. Connect to LIN (Pin 21) of MT8972. 10 TXIN Transmit Input. Connect to LOUT (Pin 1) of MT8972. 9-108 Description Negative power , which is connected to LIN of the MT8972. Figure 4 shows a typical application of the LEC. On short , obtained by using the LEC with the MT8972. Actual distance achieved may vary depending on the
Zarlink Semiconductor
Original

MT8972

Abstract: in5817 MT8972. The gain of the transmit signal may be adjusted through the use of an external resistor , Output. Connect to LIN (Pin 21) of MT8972. 10 TXIN Transmit Input. Connect to LOUT (Pin 1) of MT8972. 9-108 Description Negative power supply. Internal Bias Voltage. Connect to GND through , receive signal. The signal is then output on RXOUT which is connected to LIN of the MT8972. Figure 4 , signal path. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual
Zarlink Semiconductor
Original
Abstract: or terminal use with the MT8972. The gain of the transmit signal may be adjusted through the use of , . Test. Used for production testing. Leave unconnected. Receive Output. Connect to LIN (Pin 21) of MT8972. Transmit Input. Connect to LOUT (Pin 1) of MT8972. 2 3 4 5 6 7 8 9 10 TXOUT RXINRXIN+ VVBias V+ TEST , the receive signal. The signal is then output on RXOUT which is connected to LIN of the MT8972. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved may Zarlink Semiconductor
Original

center tap transformer 18 0 18

Abstract: MT8972 +70°c MT8972AC 22PinCerdip MT8972AE 22 Pin Plastic DIP MT8972AP 28 Pin Plastic LCC DSTi/Di CDSTi/CDi , Respective Manufacturer MT8972 iso2-cmos Figure 1 shows the block diagram of the MT8972. The DNIC provides , ® MITEL* IS02-CM0S ST-BUSâ"¢ FAMILY MT8972 Digital Network Interface Circuit Features â , and telephone sets â'¢ 80 or 160 kbit/s single chip modem Description The MT8972 (DNIC) is a , . The MT8972 is fabricated in Mitel's ISQ2-CMOS process. 9161-002-125 -NA ISSUE 2 December 1990 Pin
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MUR405 center tap transformer 18 0 18

4-wire to 2-wire hybrid

Abstract: hybrids makes them suitable for line card or terminal use with the MT8972. The gain of the transmit signal , unconnected. Receive Output. Connect to LIN (Pin 21) of MT8972. Transmit Input. Connect to LOUT (Pin 1) of MT8972. 2 3 4 5 6 7 8 9 10 TXOUT RXINRXIN+ VVBias V+ TEST RXOUT TXIN 9-108 Advance , is then output on RXOUT which is connected to LIN of the MT8972. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved may vary depending on the
Zarlink Semiconductor
Original
Abstract: or terminal use with the MT8972. The gain of the transmit signal may be adjusted through the use of , . Test. Used for production testing. Leave unconnected. Receive Output. Connect to LIN (Pin 21) of MT8972. Transmit Input. Connect to LOUT (Pin 1) of MT8972. 2 3 4 5 6 7 8 9 10 TXOUT RXINRXIN+ VVBias V+ TEST , the receive signal. The signal is then output on RXOUT which is connected to LIN of the MT8972. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual distance achieved may Zarlink Semiconductor
Original

5.1 amplifier circuits diagram

Abstract: IN5817 MT8972. The gain of the transmit signal may be adjusted through the use of an external resistor , Output. Connect to LIN (Pin 21) of MT8972. 10 TXIN Transmit Input. Connect to LOUT (Pin 1) of MT8972. 9-108 Description Negative power supply. Internal Bias Voltage. Connect to GND through , receive signal. The signal is then output on RXOUT which is connected to LIN of the MT8972. Figure 4 , signal path. Tables 1 and 2 show typical results obtained by using the LEC with the MT8972. Actual
Zarlink Semiconductor
Original
5.1 amplifier circuits diagram

1488 1489 standard

Abstract: MSAN-128 Out Figure 4 - ST-BUS Basic Rate Channel Structure for the MT8930 and the MT8972 (Single Port Mode , the MT8972 (Dual Port Mode) To be considered complete, a family of ISDN components must support all , MT8972 (DNIC) S0 Interface MT8930 (SNIC) S1 Interface MT8978, MH89780 (CEPT 2048 kbit/s , MT8980/ 81 (Digital Crosspoints) Time Base Generation MT8940 (DPLL) MT8930, MT8972 (On-Chip PLL , ). After the MT8972 receives its frame pulse, it is referenced to the channels it is allocated on
Zarlink Semiconductor
Original
I461 MT8980 application

1488 1489 standard

Abstract: msan configuration Out Figure 4 - ST-BUS Basic Rate Channel Structure for the MT8930 and the MT8972 (Single Port Mode , the MT8972 (Dual Port Mode) To be considered complete, a family of ISDN components must support all , the transmission method for basic rate information transfer between A-142 MT8972 (DNIC) S0 , Crosspoints) Time Base Generation MT8940 (DPLL) MT8930, MT8972 (On-Chip PLL) Table 1. ST-BUS ISDN , synchronization information, is still being determined. signal at the NT (slave mode). After the MT8972
Mitel Semiconductor
Original
msan configuration 1488 standard ISDN TE adapter chips MITEL SEMICONDUCTOR MT8980

MSAN-128

Abstract: MH89780 Out Figure 4 - ST-BUS Basic Rate Channel Structure for the MT8930 and the MT8972 (Single Port Mode , the MT8972 (Dual Port Mode) To be considered complete, a family of ISDN components must support all , . ISDN FUNCTION ST-BUS COMPONENT U Interface MT8972 (DNIC) S0 Interface MT8930 (SNIC , Base Generation MT8940 (DPLL) MT8930, MT8972 (On-Chip PLL) Table 1. ST-BUS ISDN Components 4.1 , ). After the MT8972 receives its frame pulse, it is referenced to the channels it is allocated on
Mitel Semiconductor
Original
ST-BUS 1488 1489 H12-channel
Showing first 20 results.