SN74HCS238-Q13-to-8 line decoder demultiplexer inverting and non-inverting with Schmitt-trigger inputs | Logic | 7 | Active | The SN74HCS238-Q1 is a three to eight decoder with one standard output strobe (G2) and two active low output strobes (G1andG0). When the outputs are gated by any of the strobe inputs, they are all forced into the low state. When the outputs are not disabled by the strobe inputs, only the selected output is high while all others are low.
The SN74HCS238-Q1 is a three to eight decoder with one standard output strobe (G2) and two active low output strobes (G1andG0). When the outputs are gated by any of the strobe inputs, they are all forced into the low state. When the outputs are not disabled by the strobe inputs, only the selected output is high while all others are low. |
SN74HCS240-Q1Octal buffers and line drivers with 3-state outputs and Schmitt-trigger inputs | Buffers, Drivers, Receivers, Transceivers | 3 | Active | This device contains eight independent inverting line drivers with 3-state outputs and Schmitt-trigger inputs. Each channel performs the Boolean function Y = A in positive logic. The channels are grouped in sets of four, with one OE pin controlling each set. The outputs can be put into a hi-Z state by applying a high on the associated OE pin.
This device contains eight independent inverting line drivers with 3-state outputs and Schmitt-trigger inputs. Each channel performs the Boolean function Y = A in positive logic. The channels are grouped in sets of four, with one OE pin controlling each set. The outputs can be put into a hi-Z state by applying a high on the associated OE pin. |
SN74HCS244-Q1Automotive octal buffers and line drivers with 3-state outputs and Schmitt trigger inputs | Logic | 4 | Active | The SN74HCS244-Q1 is an octal buffer with 3-state outputs and Schmitt-trigger inputs. The device is configured into two banks of four drivers, each controlled by its own output enable pin.
The SN74HCS244-Q1 is an octal buffer with 3-state outputs and Schmitt-trigger inputs. The device is configured into two banks of four drivers, each controlled by its own output enable pin. |
SN74HCS245Schmitt-trigger input octal bus transceivers with tri-state outputs | Integrated Circuits (ICs) | 1 | Active | The SN74HCS245 is an octal bus transceiver with 3-state outputs and Schmitt-trigger inputs. All eight channels are controlled by the direction (DIR) pin and output enable (OE) pin.
The SN74HCS245 is an octal bus transceiver with 3-state outputs and Schmitt-trigger inputs. All eight channels are controlled by the direction (DIR) pin and output enable (OE) pin. |
SN74HCS245-Q1Automotive octal bus transceivers with Schmitt-trigger inputs and 3-state outputs | Buffers, Drivers, Receivers, Transceivers | 2 | Active | The SN74HCS245-Q1 is an octal bus transceiver with 3-state outputs and Schmitt-trigger inputs. All eight channels are controlled by the direction (DIR) pin and output enable (OE) pin.
The SN74HCS245-Q1 is an octal bus transceiver with 3-state outputs and Schmitt-trigger inputs. All eight channels are controlled by the direction (DIR) pin and output enable (OE) pin. |
SN74HCS251-Q1Automotive data selectors/multiplexers with 3-state outputs | Integrated Circuits (ICs) | 3 | Active | The SN74HCS251-Q1 is a data selector/multiplexer containing full binary decoding to select 1-of-8 data sources and features strobe-controlled complementary 3-state outputs.
The SN74HCS251-Q1 is a data selector/multiplexer containing full binary decoding to select 1-of-8 data sources and features strobe-controlled complementary 3-state outputs. |
| Integrated Circuits (ICs) | 3 | Active | The SN74HCS259-Q1 8-bit addressable latches are designed for general-purpose storage applications in digital systems. Specific uses include working registers, serial-holding registers, and active-high decoders or demultiplexers. They are multifunctional devices capable of storing single-line data in eight addressable latches and being a 1-of-8 decoder or demultiplexer with active-high outputs.
The SN74HCS259-Q1 8-bit addressable latches are designed for general-purpose storage applications in digital systems. Specific uses include working registers, serial-holding registers, and active-high decoders or demultiplexers. They are multifunctional devices capable of storing single-line data in eight addressable latches and being a 1-of-8 decoder or demultiplexer with active-high outputs. |
SN74HCS264-Q1Automotive 8-bit parallel-out serial shift registers | Logic | 4 | Active | The SN74HCS264 device contains an 8-bit shift register with AND-gated serial inputs and an asynchronous clear (CLR) input. Data at the serial inputs can be changed while CLK is high or low, provided the minimum setup time requirements are met. All inputs include Schmitt-trigger architecture, adding noise margin and eliminating any input transition rate requirement. Clocking occurs on the low-to-high-level transition of CLK.
Upon a clock trigger, the device will store the result of the (A ● B) input data line in the first register and propagate each register’s data to the next register. The outputs are inverted from the data stored.
The SN74HCS264 device contains an 8-bit shift register with AND-gated serial inputs and an asynchronous clear (CLR) input. Data at the serial inputs can be changed while CLK is high or low, provided the minimum setup time requirements are met. All inputs include Schmitt-trigger architecture, adding noise margin and eliminating any input transition rate requirement. Clocking occurs on the low-to-high-level transition of CLK.
Upon a clock trigger, the device will store the result of the (A ● B) input data line in the first register and propagate each register’s data to the next register. The outputs are inverted from the data stored. |
SN74HCS266-Q1Automotive Schmitt-trigger inputs quadruple 2-input Exclusive-XNOR gates with open-drain outputs< | Logic | 3 | Active | This device contains four independent 2-input XNOR gates with open-drain outputs and Schmitt-trigger inputs. Each gate performs the Boolean function Y =A ⊕ Bin positive logic.
This device contains four independent 2-input XNOR gates with open-drain outputs and Schmitt-trigger inputs. Each gate performs the Boolean function Y =A ⊕ Bin positive logic. |
SN74HCS27Triple 3-input NOR gates with Schmitt-trigger inputs | Integrated Circuits (ICs) | 2 | Active | This device contains three independent 3-input NOR Gates with Schmitt-trigger inputs. Each gate performs the Boolean function Y =A + B + Cin positive logic.
This device contains three independent 3-input NOR Gates with Schmitt-trigger inputs. Each gate performs the Boolean function Y =A + B + Cin positive logic. |
