Abstract: A temperature measurement circuit for a dual junction temperature sensor is provided. The temperature measurement circuit is configured to provide separate bias currents to the junctions in the temperature sensor. The temperature measurement circuit includes two signal channels configured to provide an intermediate differential signal from a differential input signal that is received from the temperature sensor. Also, the temperature measurement circuit may include one or more multiplexer circuits that are configured to control the intermediate differential signal. The temperature sensor circuit further includes a control circuit configured to adjust the bias currents and to control the multiplexer circuits such that several different differential voltages can be provided by the signal channels.

Abstract: Output current of an amplifier is limited by clamping the voltage at the gate of one or more of the transistors in the output stage. A drive signal is provided to the gate of a p-type transistor in an example output stage. Another p-type transistor is activated in a short-circuit protection circuit when the drive signal is below a pre-determined level, whereby the short-circuit protection circuit is activated to clamp the drive signal. Similarly, an n-type transistor in another short-circuit protection circuit may be configured to clamp another drive signal for an n-type output stage. The short-circuit protection methodology may be applied to output stages such as in class A and class AB amplifiers.

Abstract: The present invention is related an output buffer that has one input pin and produces a two-bit output. The input levels are a ground voltage, a supply voltage, and a voltage that is halfway between ground and supply. The invention is related to producing a minimal current when the input voltage is halfway between the ground voltage and the supply voltage.

Abstract: A method and apparatus improves the accuracy of temperature measurements by sampling measurements from a remote sensor, where currents of different current densities are applied to the remote sensor in a time-interleaved fashion. The remote sensor includes at least one PN junction that produces a voltage corresponding to the applied current at each instance of time, and related to the temperature of the remote sensor. By applying time-interleaved current densities to the remote sensor, adverse effects from temperature variations during the measurement are minimized. Sequences of current biases having differing current densities in a forward order are applied to the remote sensor, followed by the same sequence being applied to the remote sensor in a reverse order. Similarly, a random or pseudo-random sequence may be employed in a forward and reverse order. The application of forward and reverse sequences is utilized to minimize errors in the temperature measurement.

Abstract: A circuit is arranged to pulse-width modulate the duty cycle of a power supply signal that is used to control the rotational speed of a fan in a temperature-controlled system. The control system includes an edge detector for monitoring a tachometer signal that is provided by the fan. The tachometer signal is monitored at a rate (e.g., one Hertz) that is substantially lower than the rotational speed of the fan. The control system also includes a timer for recording time intervals between selected edges of a monitored tachometer signal. The fan speed is determined from the recorded time intervals. The control system extends the duty cycle of the pulse-width modulated signal to ensure that the fan power remains stable over the period in which the tachometer signal is to be monitored. Maintaining fan power ensures the validity of the tachometer signal during the period that the fan power is maintained.

Abstract: The present invention is directed to a buffer having dual thresholds. The buffer has an input terminal and an output terminal and comprises a current source, first through fourth transistors, a current mirror, and an output driver. The buffer uses an “analog” topology to achieve accurate buffering when the thresholds of applied signals are not centered about the mid-supply range. The buffer is useful (among other circuits) in analog and mixed circuit integrated circuits that have relatively high voltage supply levels and signals having logic thresholds that are not centered about the mid-supply level. The buffer uses feedback from the output to achieve hysteresis.

Abstract: The present invention enables an IC to have a fast PWM while maintaining the low frequency clock requirement of the temperature measurement. Methods are presented to increase the resolution of the control using a relatively low input clock. According to one method, the numerator and denominator of the PWM duty cycle equation are adjusted to achieve a desired resolution. According to another method, a determined number of PWM cycles are used to set the PWM duty cycle. For example, an averaging of 1024 duty cycles may be used to achieve an increased resolution of the duty cycle as compared to using only one duty cycle. According to yet another method, an error integrating loop is used to determine the level of the next cycle. The number of cycles used to reach the target PWM duty cycle depends on the desired resolution.

Abstract: A circuit is arranged to limit the rate of change in fan speed control signals. The control system includes a controller that produces a nonlinear (or piecewise linear approximation of a nonlinear function) fan speed control signal. The nonlinear fan speed control signal can reduce unnecessarily large changes in the fan speed and provide a greater degree of control at higher temperatures. Linear changes in the speed of a fan often result in audible noises that are undesirably distracting. Controlling the fan by using nonlinear exponential step sizes advantageously reduces the apparent fan noise by linearly varying the amount of fan noise in approximately equal percentages between each programmed fan speed. The step sizes are nonlinear with respect to temperature change and are linear with respect to fan noise.

Abstract: A circuit is arranged control the acceleration of a fan by limiting the rate of change in fan speed control signals. The control system includes an acceleration controller that low pass filters a target fan speed control signal. The low pass filtering signal minimizes abrupt changes in the fan speed. A sudden change in the speed of the fan often results in an audible noise that is undesirably distracting. Filtering the fan speed control signal advantageously slows the rate of the fan speed changes without having to change device drivers for controlling the fan.

Abstract: A data acquisition system for sampling a temperature signal from a temperature sensor includes: a programmable current source, a buffer with a constant offset, and an analog-to-digital converter (ADC). The programmable current source selectively provides bias currents to the temperature sensor, which produces response voltages in response to the applied bias current. The buffer receives the response voltages and produces buffered response voltages that include a constant offset. The ADC is arranged to produce digital codes in response to the buffered response voltages. The digital codes are used to determine a temperature associated with the temperature sensor. The buffer isolates the temperature sensor from the ADC such that loading effects are minimized and set-up times for the conversion are minimized.

Abstract: A converter system for a temperature sensor includes a programmable current source, a digital-to-analog converter, a summer, and an analog-to-digital converter. The temperature sensor provides a measurement voltage in response to application of a bias current. The programmable current source selectively provides two different currents to the temperature sensor such that the temperature sensor provides two measurement voltages during a given temperature measurement. The digital-to-analog converter (DAC) provides an intermediate voltage that corresponds to an approximation of a voltage between the two voltages. A summer is configured to produce an offset measurement in response to the intermediate voltage and the measurement voltage. The analog-to-digital converter (ADC) receives the offset measurement voltage and produces a conversion code. Offsetting the measurement voltage reduces the dynamic range requirements of the ADC such that substantially a full input range of the ADC is utilized.

Abstract: A multi-channel remote diode temperature sensor that receives current flow across a plurality of remote diodes on a plurality of channels at a single negative data pin, is small in size and has reduced noise coupling between channels at the common negative data pin. The noise coupling of the multi-channel remote diode temperature sensor is minimized by placing an output of a low impedance buffer in electrical communication with the negative data pin. The voltage produced by the low impedance buffer automatically stabilizes the common mode voltage at the negative data pin. The size is minimized by configuring all channels of the multi-channel remote diode temperature sensor to share the sole negative data pin, thereby reducing pin count.

Abstract: An apparatus and method for directly measuring the operating temperature of a semiconductor device. A temperature sensor is placed directly on the substrate containing the device whose temperature is of interest. The circuitry used to process the sensor signals is on a separate substrate. Because the sensor is on the same substrate as the device of interest, noise is produced in the sensor signals as a result of electrons injected into the substrate by the device. The present invention includes methods for cancelling the noise and error in the temperature measurements to provide a very accurate determination of the device's operating temperature.