MC14094B8-Bit Storage/Shift Register with Three-State Outputs | Integrated Circuits (ICs) | 6 | Active | 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 QSoutput data is for use in high-speed cascaded systems. The QSoutput 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. |
| Latches | 3 | Active | The MC14099B and MC14599B are 8-bit addressable latches. Data is entered in serial form when the appropriate latch is addressed (via address pins A0, A1, A2) and write disable is in the low state. Chip enable must be high for writing into MC14599B. For the MC14599B the data pin is a bidirectional data port and for the MC14099B the input is a unidirectional write only port. The Write/Read line controls this port in the MC14599B.The data is presented in parallel at the output of the eight latches independently of the state of Write Disable, Write/Read or Chip Enable.A Master Reset capability is available on both parts. |
MC14106BHex Inverter with Schmitt Trigger Input | Integrated Circuits (ICs) | 4 | Active | The MC14106B hex Schmitt Trigger is constructed with MOS P-channel and N-channel enhancement mode devices in a single monolithic structure. These devices find primary use where low power dissipation and/or high noise immunity is desired. The MC14106B may be used in place of the MC14069UB hex inverter for enhanced noise immunity or to "square up" slowly changing waveforms. |
MC1413DHigh Voltage, High Current Darlington Transistor Driver Array | Bipolar Transistor Arrays | 8 | Active | The seven NPN Darlington connected transistors in these arrays are well suited for driving lamps, relays, or printer hammers in a variety of industrial and consumer applications. Their high breakdown voltage and internal suppression diodes insure freedom from problems associated with inductive loads. Peak inrush currents to 500 mA permit them to drive incandescent lamps.The MC1413, B with a 2.7 kΩ series input resistor is well suited for systems utilizing a 5.0 V TTL or CMOS Logic. |
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| Flip Flops | 4 | Active | The MC14175B quad type D flip-flop is constructed with MOS P-channel and N-channel enhancement mode devices in a single monolithic structure. Each of the four flip-flops is positive-edge triggered by a common clock input (C). An active-low reset input (R) asynchronously resets all flip-flops. Each flip-flop has independent Data (D) inputs and complementary outputs (Q and Q). These devices may be used as shift register elements or as type T flip-flops for counter and toggle applications. |
MC14503BHex Non-inverting Buffer, 3-State | Integrated Circuits (ICs) | 4 | Active | The MC14503B is a hex non-inverting buffer with 3-state outputs, and a high current source and sink capability. The 3-state outputs make it useful in common bussing applications. Two disable controls are provided. A high level on the Disable A input causes the outputs of buffers 1 through 4 to go into a high impedance state and a high level on the Disable B input causes the outputs of buffers 5 and 6 to go into a high impedance state. |
| Logic | 10 | Active | The MC14504B is a hex non-inverting level shifter using CMOS technology. The level shifter will shift a TTL signal to CMOS logic levels for any CMOS supply voltage between 5 and 15 volts. A control input also allows interface from CMOS to CMOS at one logic level to another logic level: Either up or down level translating is accomplished by selection of power supply levels VDDand VCC. The VCClevel sets the input signal levels while VDDselects the output voltage levels. |
| Integrated Circuits (ICs) | 1 | Active | |
