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A temperature detecting circuit includes a first rectifying element with a cathode at a first reference voltage and an anode connected to a first node, a first impedance element connected in series with a second rectifying element between the first rectifying element and a second reference voltage,

A temperature detecting circuit includes a first rectifying element with a cathode at a first reference voltage and an anode connected to a first node, a first impedance element connected in series with a second rectifying element between the first rectifying element and a second reference voltage, a third rectifying element with a cathode at the first reference voltage and an anode connected to a second node, a second impedance element and a fourth rectifying element connected in series between the third rectifying element and the second reference voltage, and a differential amplifier that outputs a differential signal pair corresponding to the difference in potential between the first node and the second node. The differential signals in the pair vary in magnitude in opposite directions in response to temperature changes.

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1. A temperature detecting circuit, comprising: a first rectifying element with a cathode at a first reference voltage and an anode connected to a first node;a first impedance element connected in series with a second rectifying element, the first impedance element and the second rectifying element

1. A temperature detecting circuit, comprising: a first rectifying element with a cathode at a first reference voltage and an anode connected to a first node;a first impedance element connected in series with a second rectifying element, the first impedance element and the second rectifying element connected between the first node and a second reference voltage;a third rectifying element with a cathode at the first reference voltage and an anode connected to a second node;a second impedance element connected in series with a fourth rectifying element, the second impedance element and the fourth rectifying element connected between the second node and the second reference voltage;a first voltage dividing circuit connected between the first node and the first reference voltage; anda differential amplifier configured to output a differential signal pair based on a difference in potential between the first node and the second node, whereinin response to temperature changes, a magnitude of a first signal of the differential signal pair increases when a magnitude of a second signal of the differential signal pair decreases and the magnitude of the first signal of the differential signal pair decreases when the magnitude of the second signal of the differential signal pair increases, andthe difference in potential between the first node and the second node is determined using a first divided voltage corresponding to the potential at the first node, the first divided voltage being supplied to the differential amplifier from the first voltage dividing circuit. 2. A temperature compensating circuit, comprising: a temperature detecting circuit, including: a first rectifying element with a cathode at a first reference voltage and an anode connected to a first node;a first impedance element connected in series with a second rectifying element, the first impedance element and the second rectifying element connected between the first node and a second reference voltage;a third rectifying element with a cathode at the first reference voltage and an anode connected to a second node;a second impedance element connected in series with a fourth rectifying element connected in series, the second impedance element and the fourth rectifying element connected between the second node and the second reference voltage; anda differential amplifier configured to output a differential signal pair corresponding to a difference in potential between the first node and the second node; anda transfer gate configured to switch a conduction state between an input terminal and an output terminal according the differential signal pair;wherein a magnitude of a first signal of the differential signal pair output from the differential amplifier and a magnitude of a second signal of the differential signal pair vary in opposite directions in response to temperature changes. 3. The temperature compensating circuit according to claim 2, wherein the anode of the second rectifying element is at the second reference voltage and the cathode of the second rectifying element is connected to the first impedance element. 4. The temperature compensating circuit according to claim 2, wherein the anode of the fourth rectifying element is at the second reference voltage and the cathode of the fourth rectifying element is connected to the second impedance element. 5. The temperature detecting circuit according to claim 1, wherein an impedance value of the first impedance element is less than an impedance value of the second impedance element. 6. The temperature detecting circuit according to claim 1, wherein an area factor of the first rectifying element is less than an area factor of the second rectifying element, andan area factor of the third rectifying element greater than an area factor of the fourth rectifying element. 7. The temperature detecting circuit according to claim 1, further comprising: a second voltage dividing circuit connected between the second node and the first reference voltage;wherein the difference in potential between the first node and the second node is determined using the first divided voltage and a second divided voltage corresponding to the potential at the second node, the second divided voltage being supplied to the differential amplifier from the second voltage dividing circuit. 8. The temperature detecting circuit according to claim 7, wherein an area factor of the first rectifying element is less than an area factor of the second rectifying element, andan area factor of the third rectifying element greater than an area factor of the fourth rectifying element. 9. A temperature detecting circuit, comprising: a first rectifying element with a cathode at a first reference voltage and an anode connected to a first node;a first impedance element connected in series with a second rectifying element, the first impedance element and the second rectifying element connected between the first node and a second reference voltage;a third rectifying element with a cathode at the first reference voltage and an anode connected to a second node;a second voltage dividing circuit connected between the second node and the first reference voltage;a second impedance element connected in series with a fourth rectifying element, the second impedance element and the fourth rectifying element connected between the second node and the second reference voltage; anda differential amplifier configured to output a differential signal pair based on a difference in potential between the first node and the second node, whereinin response to temperature changes, a magnitude of a first signal of the differential signal pair increases when a magnitude of a second signal of the differential signal pair decreases and the magnitude of the first signal of the differential signal pair decreases when the magnitude of the second signal of the differential signal pair increases,the difference in potential between the first node and the second node is determined using a second divided voltage corresponding to the potential at the second node, the second divided voltage being supplied to the differential amplifier from the second voltage dividing circuit. 10. The temperature detecting circuit according to claim 9, wherein an area factor of the first rectifying element is less than an area factor of the second rectifying element, andan area factor of the third rectifying element greater than an area factor of the fourth rectifying element. 11. The temperature detecting circuit according to claim 9, wherein an impedance value of the second impedance element is less than an impedance value of the first impedance element. 12. The temperature compensating circuit according to claim 2, wherein an area factor of the first rectifying element is less than an area factor of the second rectifying element, andan area factor of the third rectifying element is greater than an area factor of the fourth rectifying element. 13. The circuit of claim 12, wherein the transfer gate comprises a p-type metal oxide semiconductor transistor and a n-type metal oxide semiconductor transistor connected in parallel between the input terminal and output terminal. 14. The circuit of claim 13, wherein a resistor is connected in parallel with the transistors. 15. The circuit of claim 13, wherein a first signal of the differential signal pair is supplied to a gate electrode of the n-type metal oxide semiconductor transistor, and a second signal of the differential signal pair is supplied to a gate electrode of the p-type metal oxide semiconductor transistor. 16. A buffer circuit, comprising: a buffer section configured to buffer a signal received from an internal circuit and to output a buffered signal; anda temperature compensating circuit connected to the buffer section to receive the buffered signal at an input terminal thereof and including: a first rectifying element with a cathode at a first reference voltage and an anode connected to a first node;a first impedance element connected in series with a second rectifying element, the first impedance element and the second rectifying element connected between the first node and a second reference voltage;a third rectifying element with a cathode at the first reference voltage and an anode connected to a second node;a second impedance element connected in series with a fourth rectifying element connected in series, the second impedance element and the fourth rectifying element connected between the second node and the second reference voltage; anda differential amplifier configured to output a differential signal pair corresponding to a difference in potential between the first node and the second node; anda transfer gate configured to switch a conduction state between the input terminal and an output terminal of the buffer circuit according the differential signal pair,wherein a magnitude of a first signal of the differential signal pair and a magnitude of a second signal of the differential signal pair vary in opposite directions in response to temperature changes. 17. The circuit of claim 16, wherein the transfer gate comprises a p-type metal oxide semiconductor transistor and a n-type metal oxide semiconductor transistor connected in parallel between the input terminal and output terminal. 18. The circuit of claim 17, wherein a resistor is connected in parallel with the transistors. 19. The circuit of claim 16, wherein an impedance value of the first impedance element is less than an impedance value or the second impedance element,an area factor of the first rectifying element is less than an area factor of the second rectifying element, andan area factor of the third rectifying element greater than an area factor of the fourth rectifying element.