A level-shifting circuits utilizing storage cells for shifting signals low-to-high or high-to-low include control drivers with moving supply voltages. The moving supply voltages may power positive or negative supply terminals of the control drivers. The control drivers drive gates of common-source configured devices coupled to storage nodes of the storage cell.

Stacked voltage domain level shifting circuits for shifting signals low-to-high or high-to-low include a storage cell and control drivers powered by a mid-range supply rail of the stacked voltage domain level shifting circuit, wherein the control drivers are coupled to drive common-source configured devices coupled to storage nodes of the storage cell.

A digital-to-analog converter (DAC) capable of operating in radio frequency (RF) with linear output, low distortion, low power consumption, and input data independence. The DAC includes switch drivers and output switches driven by the switch drivers. The switch drivers include pairs of outputs, and positive feedback circuitries coupled between respective pairs of outputs. The output switches are arranged between a first current source configured to push current to the DAC's outputs and a second current source configured to pull current from the DAC's outputs. Different output switches are configured to push current to and pull current from the DAC's outputs in accordance with rising edges and falling edges, respectively.

A low voltage level shifter that is suitable for use with subthreshold logic. In one embodiment, the low voltage level shifter includes first and second input transistors coupled to first and second input nodes, respectively, that receive complementary low voltage input signals. A circuit is coupled to the first and second input transistors and to first and second output nodes that generate complementary high voltage output signals. The circuit is configured to transmit a first current to the second output node when the first input transistor is activated, wherein the first current is substantially equal to current drawn by the first input transistor when it is activated. The circuit is also configured to transmit a second current to the first output node when the second input transistor is activated, wherein the second current is substantially equal to current drawn by the second input transistor when it is activated.

A low voltage level shifter that is suitable for use with subthreshold logic. In one embodiment, the low voltage level shifter includes first and second input transistors coupled to first and second input nodes, respectively, that receive complementary low voltage input signals. A circuit is coupled to the first and second input transistors and to first and second output nodes that generate complementary high voltage output signals. The circuit is configured to transmit a first current to the second output node when the first input transistor is activated, wherein the first current is substantially equal to current drawn by the first input transistor when it is activated. The circuit is also configured to transmit a second current to the first output node when the second input transistor is activated, wherein the second current is substantially equal to current drawn by the second input transistor when it is activated.

In one general aspect, a level-shifting circuit includes a first supply terminal configured to receive a first supply voltage, a second supply terminal configured to receive a second supply voltage different from the first supply voltage, an input terminal of the level-shifting circuit configured to receive a voltage having a first voltage level, and an output terminal of the level-shifting circuit. The level-shifting circuit can be configured shift the voltage based on the second supply voltage level to a second voltage level different from the first voltage level. The level-shifting circuit can include a shifting circuit having electrical connections to the input terminal and the output terminal and configured to, in response to a first voltage at a first node, produce a second voltage at a second node. The shifting circuit can include an inverter where the inverter includes a PMOS transistor and an NMOS transistor and the shifting circuit is used to shift the first voltage level to the second voltage level. The level-shifting circuit can also include a feedback circuit having an electrical connection to the first node and the second node where the feedback circuit is configured to maintain the PMOS transistor of the inverter in an OFF state. The level-shifting circuit can also include a clamping circuit having an electrical connection to the first node where the clamping circuit is configured to limit current at the first node.

A voltage translation device is disclosed. The voltage translation device includes an input circuit, operating in a first voltage domain, that is configured to receive an input signal. The voltage translation device also includes an output circuit, operating in a second voltage domain, that includes a latch circuit. The voltage translation device also includes a driver circuit that is controlled by the input circuit to pass a voltage from the first voltage domain to the latch circuit in order to trigger the latch circuit to output an output signal in the second voltage domain according to the input signal in the first voltage domain.

A voltage level shifter circuit, including: a first control circuit, arranged to receive an input voltage and generate a first control signal; a first pull-down circuit, arranged to determine whether to pull down a first output voltage to a first reference voltage according to the first control signal; a first pull-up circuit, arranged to determine whether to pull up the first output voltage to a second reference according to a first inverse output voltage; a second control circuit, arranged to generate a second control signal according to the first output voltage; a second pull-down circuit, arranged to determine whether to pull down a second output voltage to the second reference voltage according to the second control signal; and a second pull-up circuit, arranged to determine whether to pull up the second output voltage to a third reference voltage according to a second inverse output voltage.

A level shifter with reduced propagation delay. A level shifter includes a signal input terminal, a first signal output node, a first transistor, a second transistor, a third transistor, and a first capacitor. The first transistor includes a control terminal coupled to the signal input terminal. The second transistor includes an output terminal coupled to an input terminal of the first transistor. The first capacitor includes a bottom plate coupled to an input terminal of the second transistor. The third transistor includes a control terminal coupled to a top plate of the first capacitor, and an output terminal coupled to the first signal output node.

In examples, an apparatus comprises a pin, an input buffer coupled to the pin at an output of the input buffer, a voltage divider circuit coupled to the input buffer at an input of the input buffer, a first current mirror coupled to the input buffer, and a second current mirror coupled to the input buffer. The apparatus also comprises a first output buffer coupled between the input buffer and the first current mirror, and a second output buffer coupled between the input buffer and the second current mirror.