Abstract: A current supply circuit is disclosed having a field effect transistor and negative feedback for degenerating the magnitude of the current supplied thereby. The negative feedback can be provided by a diffused resistor connected between the gate and source electrodes of the current supply field effect transistor. A differential amplifier which includes a pair of differentially coupled amplifying field effect transistors is coupled to the current supply circuit. The negative feedback enables the current supply device to provide a current which compensates the differentially coupled field effect transistors over processing while not deleteriously affecting the temperature characteristics thereof. A bipolar diode and a bipolar transistor can be included in the current supply for enabling the resistor to take up less chip area and for allowing more flexibility in the design of the geometry of the current supply, field effect transistor.

Abstract: An arrangement for compensating the temperature coefficient of the semiconductor junction connected in a circuit, comprising first, second, and third transistors of the same predetermined type, each having a base-emitter junction and operatively connected to have a respective collector current, and a resistive voltage divider having two ends in a center tap. The transistors and the divider are operatively connected such that the voltages of the base-emitter junctions of the first and second transistors are summed and applied across the ends of the voltage divider. The voltage from one end to the center tap of the voltage divider is connected across the base-emitter junction of the third transistor. The collector current of the third transistor thus corresponds to the geometric mean of the respective collector currents of the first and second transistors and is substantially less temperature-dependent than the collector current of the first transistor.

Abstract: Two output voltages are generated in response to the output of a power supply. One output is referenced to the positive supply terminal V.sub.CC and the other output is referenced to the negative supply terminal V.sub.EE.. A first .DELTA.V.sub.BE reference circuit provides for the production of the pair of voltages which are temperature compensated. A second .DELTA.V.sub.BE reference circuit operates a voltage regulator which supplies the first .DELTA.V.sub.BE reference. The resulting two output voltages are temperature compensated and substantially independent of power supply voltage variations.

Abstract: A voltage reference arrangement comprising the series connection of a semiconductor junction and a resistor connected in a current circuit in which a current with a positive temperature coefficient flows. The value of the resistor is such that the voltage across said series connection is highly temperature independent. In order to reduce said temperature-independent voltage, a second resistor is included in said current circuit in parallel with the said series connection and having a resistance value such that the temperature independence of the voltage across said series connection is preserved.

Abstract: A constant voltage generator capable of generating a constant voltage having a fixed temperature coefficient regardless of manufacturing errors is disclosed. The constant voltage generator comprises a transistor construction having a forwardly biased PN-junction, a Zener diode connected in series to an electrical path between the emitter and a collector of the transistor construction, a first resistor connected between a base and the emitter of the transistor construction, and a second resistor connected between the base and the collector of the transistor construction. The transistor construction, the Zener diode and the first and second resistors are all formed in a common semiconductor substrate, the first resistor being composed of a region of one conductivity type and the second resistor being composed of a pinch resistor formed in the substrate.

Abstract: An interface circuit is provided for interconnecting an electronic controller to a contactor circuit which, in turn, controls the alternating current flow from an alternating current power source to controlled equipment, such as a resistance welding machine. The contactor circuit, for example, includes a pair of semiconductor switching devices, such as silicon controlled rectifiers (SCR)s, the two semiconductor switching devices are alternately rendered conductive during successive half-cycles of the alternating current power from the alternating current power source at times controlled by the controller for the controlled operation of the welding machine. The interface circuit includes means for monitoring the junction temperature of each of the semiconductor switching devices, and to provide an indication and a control effect should the junction temperature exceed a particular safe threshold.

Abstract: A temperature-compensated band-gap reference of the type employing two transistors operated at different current densities to develop a positive TC current. This current flows through a first resistor of nominal TC to develop a positive TC voltage which is connected in series with a negative TC voltage developed by the base-to-emitter voltage of a transistor, to produce a composite temperature compensated output voltage. The circuitry further includes a second resistor connected in series with the first resistor and having a positive TC to produce an additional compensating voltage having a temperature coefficient following a parabolic expression. This additional voltage, when connected with the other components of the output voltage, reduces the small residual inherent TC of the band-gap reference to provide a more stable reference source.

Abstract: A differential reference voltage regulator for I.sup.2 L silicon integrated circuits having temperature compensation means including a temperature reference transistor and a balance resistance, R2, connected in series between a reference resistance, R1, and a current source transistor wherein ##EQU1## where n is the ratio of currents applied to a pair of transistors which form a differential regulator.