MC14094 ,8-Stage Shift/Store Register with Three-State Outputs3MC14094B(7.)ÎÎÎÎÎ SWITCHING CHARACTERISTICS (C = 50 pF, T = 25* C)L AVÎ DDÎ(8.)Characteristic Sym ..
MC14094B ,8-Bit Shift/Store Register with Three-State OutputsMC14094B8-Stage Shift/Store Registerwith Three-State OutputsThe MC14094B combines an 8−stage shift ..
MC14094BCL ,8-Stage Shift/Store Register with Three-State OutputsMAXIMUM RATINGS* (Voltages Referenced to V )SSÎÎOUTPUTDATA 2 15ENABLESymbol Parameter Value UnitÎÎÎ ..
MC14094BCL ,8-Stage Shift/Store Register with Three-State OutputsMAXIMUM RATINGS* (Voltages Referenced to V )SSÎÎOUTPUTDATA 2 15ENABLESymbol Parameter Value UnitÎÎÎ ..
MC14094BCL ,8-Stage Shift/Store Register with Three-State OutputsELECTRICAL CHARACTERISTICS (Voltages Referenced to V )SSΖ 55* C 25* C 125* CV VD DD DÎÎVdc VdcChar ..
MC14094BCP ,8-Stage Shift/Store Register with Three-State Outputsseventh stage to two serial outputs. The Q output data is for use inShigh−speed cascaded systems. T ..
MC68HC000CFN10 ,Microprocessor, sixteen 32-bit data and address registers, 16-Mbyte direct addressing range, memory-mapped input/output (I/O), 14 addressing modes, 10MHzfeatures:• MC68HC001/MC68EC000/MC68SEC000— Statically selectable 8- or 16-bit data bus• MC68HC000/M ..
MC68HC000CFN12 ,Microprocessor, sixteen 32-bit data and address registers, 16-Mbyte direct addressing range, memory-mapped input/output (I/O), 14 addressing modes, 12MHz Order this document by M68000UMAD/ADCommunications and AdvancedConsumer Technologi ..
MC68HC000CFN12 ,Microprocessor, sixteen 32-bit data and address registers, 16-Mbyte direct addressing range, memory-mapped input/output (I/O), 14 addressing modes, 12MHzfeatures:• MC68HC001/MC68EC000/MC68SEC000— Statically selectable 8- or 16-bit data bus• MC68HC000/M ..
MC68HC000CFN12 ,Microprocessor, sixteen 32-bit data and address registers, 16-Mbyte direct addressing range, memory-mapped input/output (I/O), 14 addressing modes, 12MHzfeatures:• MC68HC001/MC68EC000/MC68SEC000— Statically selectable 8- or 16-bit data bus• MC68HC000/M ..
MC68HC000CFN16 ,Microprocessor, sixteen 32-bit data and address registers, 16-Mbyte direct addressing range, memory-mapped input/output (I/O), 14 addressing modes, 16MHzfeatures:• MC68HC001/MC68EC000/MC68SEC000— Statically selectable 8- or 16-bit data bus• MC68HC000/M ..
MC68HC000CFN16 ,Microprocessor, sixteen 32-bit data and address registers, 16-Mbyte direct addressing range, memory-mapped input/output (I/O), 14 addressing modes, 16MHzfeatures: • Sixteen 32-Bit Data and Address Registers• 16-Mbyte Direct Addressing Range• Program Co ..
MC14094
8-Stage Shift/Store Register with Three-State Outputs
----The MC14094B combines an 8–stage shift register with a data latch
for each stage and a three–state output from each latch.
Data is shifted on the positive clock transition and is shifted from the
seventh stage to two serial outputs. The QS output data is for use in
high–speed cascaded systems. The Q′S output data is shifted on the
following negative clock transition for use in low–speed cascaded
systems.
Data from each stage of the shift register is latched on the negative
transition of the strobe input. Data propagates through the latch while
strobe is high.
Outputs of the eight data latches are controlled by three–state
buffers which are placed in the high–impedance state by a logic Low
on Output Enable. Three–State Outputs Capable of Driving Two Low–Power TTL Loads or One Low–Power
Schottky TTL Load Over the Rated Temperature Range Input Diode Protection Data Latch Dual Outputs for Data Out on Both Positive and
Negative Clock Transitions Useful for Serial–to–Parallel Data Conversion Pin–for–Pin Compatible with CD4094B
MAXIMUM RATINGS (Voltages Referenced to VSS) (Note 2.) Maximum Ratings are those values beyond which damage to the device
may occur. Temperature Derating:
Plastic “P and D/DW” Packages: – 7.0 mW/ C From 65 C To 125C
This device contains protection circuitry to guard against damage due to high
static voltages or electric fields. However, precautions must be taken to avoid
applications of any voltage higher than maximum rated voltages to this
high–impedance circuit. For proper operation, Vin and Vout should be constrained
to the range VSS (Vin or Vout) VDD.