Patent application number | Description | Published |
20100264974 | Input-output device protection - A cascoded input-output device is provided configured to receive at an input node a lower voltage input signal and to generate at an output node a higher voltage output signal. The input-output device is split into two voltage domains to enable output signals in a larger range to be generated, whilst the components of the input-output device individually operate in a smaller range. By applying a selected bias voltage to a protected node of the cascoded input-output device, first changing that selected bias voltage in response to a transition of the input signal and then switching that selected bias voltage back when the output signal reaches a predetermined level, that node is protected, either avoiding stress-inducing voltage swings or providing a switching speed increasing charge boost. | 10-21-2010 |
20100264976 | Circuitry for processing signals from a higher voltage domain using devices designed to operate in a lower voltage domain - An apparatus is disclosed for receiving input signals in a first higher voltage domain and for generating and outputting signals in a second lower voltage domain, said apparatus comprising: an input pad for receiving said input signals in said first higher voltage domain; output circuitry comprising a plurality of devices arranged between a high voltage source of said second lower voltage domain and a low voltage source, said plurality of devices being arranged in a first set and a second set, said first set being arranged between said high voltage source and said output and said second set being arranged between said output and said low voltage source, said output circuitry being configured to switch to output a first predetermined value in response to a rising input signal exceeding an upper threshold value and to switch to output a second predetermined value in response to a falling input signal falling below a lower threshold value; a first input path for sending said received input signals to a first input of said first set; a second input path for sending said received input signals to a second input of said second set; wherein said second input path comprises a switch delay device for reducing a voltage of said received input signal such that on a rising input signal, said input signal has reached a higher value when said output circuitry switches in response to said input signal than it would have reached had said input signal voltage not been reduced; and a controllable connecting path between said first and second inputs for connecting said first and second inputs together in response to detection of said first predetermined value at said output and for not connecting said first and second inputs together in response to detection of said second predetermined value at said output. | 10-21-2010 |
20100264977 | Cascoded level shifter protection - A cascoded level shifter for receiving an input signal in a low voltage range and for generating an output signal in a high voltage range is disclosed. The cascoded level shifter is subdivided into a first voltage section and a second voltage section, the first voltage section having a lower voltage supply than the second voltage section, and a combined voltage across the first voltage section and the second voltage section corresponding to the high voltage range, the cascoded level shifter comprising: an input node configured to receive an input signal; a cascoded device disposed in one of the first voltage section and the second voltage section, the cascoded device comprising a driver switch connected in series with a cascode switch at a midpoint node, the cascode switch switching in dependence on a reference voltage of a reference node and the input signal; and reference voltage perturbation circuitry, configured to cause a transient perturbation to the reference voltage in response to a transition of the input signal to cause the cascode switch to switch. | 10-21-2010 |
20100271736 | Protecting lower voltage domain devices during operation in a higher voltage domain - Circuitry is disclosed that comprises: a high voltage rail for providing a high voltage level corresponding to a first higher voltage domain; an intermediate voltage source, a low voltage rail; and a plurality of devices configured to operate in a second lower voltage domain; said circuitry being configured such that a first set of said plurality of devices are arranged in an upper voltage region where they are powered between said high voltage rail and an intermediate voltage rail powered by said intermediate voltage source and a second set of said plurality of devices are arranged in a lower voltage region where they are powered between said intermediate voltage rail and said low voltage rail, said circuitry being configured such that on power up said intermediate voltage source is powered before said high voltage rail, said circuitry further comprising: an isolating circuit arranged in said upper voltage region, said isolating circuit comprising at least one switching device for connecting said intermediate voltage source to at least one node in said circuitry in response to said high voltage rail being powered, and for isolating said at least one node from said intermediate voltage source and for connecting said at least one node to said high voltage rail in response to said intermediate voltage source being powered and said high voltage rail not being powered in order to impede current flow from said intermediate voltage source to said high voltage rail via said node when said high voltage rail is not powered. | 10-28-2010 |
20120146704 | CASCODED LEVEL SHIFTER PROTECTION - A cascoded level shifter is subdivided into a first voltage section and a second voltage section, the first voltage section having a lower voltage supply than the second voltage section, and a combined voltage across the first voltage section and the second voltage section corresponding to the high voltage range. The shifter includes an input node receiving an input signal, a cascoded device disposed in one of the first voltage section and the second voltage section, the cascoded device includes a driver switch connected in series with a cascode switch at a midpoint node, the cascode switch switching in dependence on a reference voltage of a reference node and the input signal, and reference voltage perturbation circuitry configured to cause a transient perturbation to the reference voltage in response to a transition of the input signal to cause the cascode switch to switch. | 06-14-2012 |
20120299631 | Level shifting circuitry - Level shifting circuitry comprises a first level shifter and a second level shifter. In response to a falling edge transition of an input signal, the first level shifter generates a primary transition of a first intermediate signal faster than the second level shifter generates a secondary transition of a second intermediate signal. In response to a rising edge of the input signal, the second level shifter generates a primary transition of the second intermediate signal faster than the first level shifter generates a secondary transition of the first intermediate signal. Output switching circuitry is provided to switch an output signal between an output high voltage level and an output low voltage level in response to the primary transition of the first intermediate signal and the primary transition of the second intermediate signal. | 11-29-2012 |
20130027820 | Electrostatic discharge protection device having an intermediate voltage supply for limiting voltage stress on components - An electrostatic protection apparatus is disclosed that has a voltage level supply configured to supply a voltage level to an electrostatic discharge protection device and the electrostatic discharge protection device that protects a semiconductor electronic device from a rapidly increasing incoming current. The voltage level supply comprises: a voltage divider arranged between high and low voltage rails for supplying an intermediate voltage level to the electrostatic protection device such that a voltage drop across at least some devices within the electrostatic protection device is limited by the intermediate voltage level; a detection device for detecting a signal received from said electrostatic discharge protection device indicating the electrostatic discharge protection device has received the rapidly increasing incoming current; a switching device responsive to the signal to switch the voltage level supplied to the electrostatic discharge protection device from the intermediate voltage level to a voltage level of one of the voltage rails. | 01-31-2013 |