MR 4020 PIN ASSIGNMENT Search Results

mr 4020 pin assignment

Abstract: MC100E150
Contextual Info: MC10E150, MC100E150 5V ECL 6-Bit D Latch The MC10E/100E150 contains six D-type latches with differential outputs. When both Latch Enables LEN1, LEN2 are LOW, the latch is transparent and input data transitions propagate through to the output. A logic HIGH on either LEN1 or LEN2 (or both) latches the

Contextual Info: MC10E143, MC100E143 5V ECL 9-Bit Hold Register The MC10E/100E143 is a 9-bit holding register, designed with byte-parity applications in mind. The E143 holds current data or loads new data, with the nine inputs D0 − D8 accepting parallel input data. The SEL Select input pin is used to switch between the two modes

mr 4020

Abstract: MC100E175
Contextual Info: MC10E175, MC100E175 5V ECL 9-Bit Latch With Parity The MC10E/100E175 is a 9-bit latch. It also features a tenth latched output, ODDPAR, which is formed as the odd parity of the nine data inputs ODDPAR is HIGH if an odd number of the inputs are HIGH . The E175 can also be used to generate byte parity by using D8 as the

Contextual Info: MC10E167, MC100E167 5V ECL 6-Bit 2:1 MUX-Register The MC10E/100E167 contains six 2:1 multiplexers followed by D flip-flops with single-ended outputs. Input data are selected by the Select control, SEL. The selected data are transferred to the flip-flop outputs by a positive edge on CLK1 or CLK2 or both . A HIGH on

Contextual Info: MC10E155, MC100E155 5V ECL 6−Bit 2:1 Mux−Latch The MC10E/100E155 contains six 2:1 multiplexers followed by transparent latches with single−ended outputs. When both Latch Enables LEN1, LEN2 are LOW, the latch is transparent, and output data is controlled by the multiplexer select control, SEL. A logic

transistor phl 815

Contextual Info: MC10E141, MC100E141 5V ECL 8-Bit Shift Register The MC10E/100E141 is an 8-bit full-function shift register. The E141 performs serial/parallel in and serial/parallel out, shifting in either direction. The eight inputs D0 − D7 accept parallel input data, while

Contextual Info: MC10E154, MC100E154 5V ECL 5-Bit 2:1 Mux-Latch The MC10E/100E154 contains five 2:1 multiplexers followed by transparent latches with differential outputs. When both Latch Enables LEN1, LEN2 are LOW, the latch is transparent, and output data is controlled by the multiplexer select control, SEL. A logic HIGH on

transistor Bd 575

Contextual Info: MC10E212, MC100E212 5V ECL 3-Bit Scannable Registered Address Driver The MC10E/100E212 is a scannable registered ECL driver typically used as a fan-out memory address driver for ECL cache driving. In a VLSI array based CPU design, use of the E212 allows the user to

socket 775 pinout

Abstract: mr 4030
Contextual Info: MC10E156, MC100E156 5V ECL 3-Bit 4:1 Mux-Latch The MC10E/100E156 contains three 4:1 multiplexers followed by transparent latches with differential outputs. When both Latch Enables LEN1, LEN2 are LOW, the latch is transparent, and output date is controlled by the multiplexer select controls (SEL0, SEL1). A logic

MC100E150

Contextual Info: MC10E150, MC100E150 5V ECL 6-Bit D Latch The MC10E/100E150 contains six D-type latches with differential outputs. When both Latch Enables LEN1, LEN2 are LOW, the latch is transparent and input data transitions propagate through to the output. A logic HIGH on either LEN1 or LEN2 (or both) latches the

MC100E150

Abstract: mr 4020 MC100E150FN MC100E150FNR2 MC10E150 MC10E150FN MC10E150FNR2
Contextual Info: MC10E150, MC100E150 5VĄECL 6ĆBit D Latch The MC10E/100E150 contains six D-type latches with differential outputs. When both Latch Enables LEN1, LEN2 are LOW, the latch is transparent and input data transitions propagate through to the output. A logic HIGH on either LEN1 or LEN2 (or both) latches the

Contextual Info: MC10EL34, MC100EL34 5V ECL ÷2, ÷4, ÷8 Clock Generation Chip The MC10/100EL34 is a low skew ÷2, ÷4, ÷8 clock generation chip designed explicitly for low skew clock generation applications. The internal dividers are synchronous to each other, therefore, the common

1005 Ic Data

Abstract: IC 4050 DATA SHEET pin diagram ic 4030 E143 MC100E143 MC100E143FN MC100E143FNR2 MC10E143 MC10E143FN MC10E143FNR2
Contextual Info: MC10E143, MC100E143 5V ECL 9-Bit Hold Register The MC10E/100E143 is a 9-bit holding register, designed with byte-parity applications in mind. The E143 holds current data or loads new data, with the nine inputs D0 − D8 accepting parallel input data. The SEL Select input pin is used to switch between the two modes

MC100E175

Abstract: E175 MC100E175FN MC100E175FNR2 MC10E175 MC10E175FN MC10E175FNR2 E175 transistor
Contextual Info: MC10E175, MC100E175 5VĄECL 9ĆBit Latch With Parity The MC10E/100E175 is a 9-bit latch. It also features a tenth latched output, ODDPAR, which is formed as the odd parity of the nine data inputs ODDPAR is HIGH if an odd number of the inputs are HIGH . The E175 can also be used to generate byte parity by using D8 as the

mr 4030

Abstract: mr 4020 E143 MC100E143 MC100E143FN MC100E143FNR2 MC10E143 MC10E143FN MC10E143FNR2
Contextual Info: MC10E143, MC100E143 5VĄECL 9ĆBit Hold Register The MC10E/100E143 is a 9-bit holding register, designed with byte-parity applications in mind. The E143 holds current data or loads new data, with the nine inputs D0 – D8 accepting parallel input data. The SEL Select input pin is used to switch between the two modes

mr 4020

Abstract: MC100E151 MC100E151FN MC100E151FNR2 MC10E151 MC10E151FN MC10E151FNR2
Contextual Info: MC10E151, MC100E151 5VĄECL 6ĆBit D Register The MC10E/100E151 contains 6 D-type, edge-triggered, master-slave flip-flops with differential outputs. Data enters the master when both CLK1 and CLK2 are LOW, and is transferred to the slave when CLK1 or CLK2 or both go HIGH. The asynchronous

MC100E151

Abstract: MC100E151FN MC100E151FNR2 MC10E151 MC10E151FN MC10E151FNR2
Contextual Info: MC10E151, MC100E151 5V ECL 6-Bit D Register The MC10E/100E151 contains 6 D-type, edge-triggered, master-slave flip-flops with differential outputs. Data enters the master when both CLK1 and CLK2 are LOW, and is transferred to the slave when CLK1 or CLK2 or both go HIGH. The asynchronous

MC100E167

Abstract: 100E167 MC100E167FN MC100E167FNR2 MC10E167 MC10E167FN MC10E167FNR2
Contextual Info: MC10E167, MC100E167 5VĄECL 6ĆBit 2:1 MuxĆRegister The MC10E/100E167 contains six 2:1 multiplexers followed by D flip-flops with single-ended outputs. Input data are selected by the Select control, SEL. The selected data are transferred to the flip-flop

MC100E150

Abstract: MC100E150FN MC100E150FNR2 MC10E150 MC10E150FN MC10E150FNR2 mr 4030
Contextual Info: MC10E150, MC100E150 5VĄECL 6ĆBit D Latch The MC10E/100E150 contains six D-type latches with differential outputs. When both Latch Enables LEN1, LEN2 are LOW, the latch is transparent and input data transitions propagate through to the output. A logic HIGH on either LEN1 or LEN2 (or both) latches the

el34

Abstract: 100EL34 10EL34 MC100EL34 MC100EL34D MC100EL34DR2 MC10EL34 MC10EL34D MC10EL34DR2
Contextual Info: MC10EL34, MC100EL34 5V ECL ÷2, ÷4, ÷8 Clock Generation Chip The MC10/100EL34 is a low skew ÷2, ÷4, ÷8 clock generation chip designed explicitly for low skew clock generation applications. The internal dividers are synchronous to each other, therefore, the common

Contextual Info: MC10EL34, MC100EL34 5V ECL ÷2, ÷4, ÷8 Clock Generation Chip The MC10/100EL34 is a low skew ÷2, ÷4, ÷8 clock generation chip designed explicitly for low skew clock generation applications. The internal dividers are synchronous to each other, therefore, the common

MC100E167FNR2

Abstract: MC10E167 MC10E167FN MC10E167FNR2 MC100E167 MC100E167FN
Contextual Info: MC10E167, MC100E167 5V ECL 6-Bit 2:1 MUX-Register The MC10E/100E167 contains six 2:1 multiplexers followed by D flip-flops with single-ended outputs. Input data are selected by the Select control, SEL. The selected data are transferred to the flip-flop outputs by a positive edge on CLK1 or CLK2 or both . A HIGH on

MC100E151

Abstract: MC100E151FN MC100E151FNR2 MC10E151 MC10E151FN MC10E151FNR2
Contextual Info: MC10E151, MC100E151 5VĄECL 6ĆBit D Register The MC10E/100E151 contains 6 D-type, edge-triggered, master-slave flip-flops with differential outputs. Data enters the master when both CLK1 and CLK2 are LOW, and is transferred to the slave when CLK1 or CLK2 or both go HIGH. The asynchronous

MR 4010

Abstract: el34 100EL34 10EL34 MC100EL34 MC100EL34D MC100EL34DR2 MC10EL34 MC10EL34D MC10EL34DR2
Contextual Info: MC10EL34, MC100EL34 5VĄECL ÷2, ÷4, ÷8 Clock Generation Chip The MC10/100EL34 is a low skew ÷2, ÷4, ÷8 clock generation chip designed explicitly for low skew clock generation applications. The internal dividers are synchronous to each other, therefore, the common