Light receiving device

The invention claimed is: 1. A light receiving device that receives a light signal, the light receiving device comprising: a plurality of avalanche photodiodes, in each of which receiving sensitivity is set in accordance with a bias signal provided; a plurality of level conversion units provided in association with the avalanche photodiodes, each of the level conversion units being configured to convert a level of a reference voltage for obtaining the bias signal so as to generate the bias signal and being configured to provide the bias signal to a corresponding one of the avalanche photodiodes; and a control unit to generate a first control signal corresponding to a temperature of the light receiving device, and to control a level conversion amount of each of the level conversion units by using the first control signal; and a booster unit to boost a power supply voltage so as to generate the reference voltage, and to provide the reference voltage to the level conversion units, wherein each of the level conversion units converts the level of the reference voltage on the basis of the first control signal so as to generate the bias signal, the booster unit generates the reference voltage by adding a voltage value determined on the basis of a voltage between an output terminal and a control terminal of a transistor used in the level conversion unit to a voltage that is the largest of the bias signals for the avalanche photodiodes, and the control unit generates a second control signal corresponding to the temperature of the light receiving device and controls the reference voltage generated by the booster unit by using the second control signal. 2. The light receiving device according to claim 1 , wherein the control unit includes a table that correlates the temperature of the light receiving device with the first control signal and with the second control signal, reads the first control signal corresponding to the temperature of the light receiving device from the table, outputs the first control signal that is read to each of the level conversion units, and outputs, to the booster unit, the second control signal read from the table in accordance with the temperature of the light receiving device. 3. The light receiving device according to claim 1 , wherein each of the level conversion units has a divided resistance circuit to divide a voltage between the reference voltage and ground by using the first control signal, and each of the level conversion units generates the bias signal by using the voltage that is divided by the divided resistance circuit, and provides the bias signal to the corresponding one of the avalanche photodiodes. 4. The light receiving device according to claim 3 , wherein the divided resistance circuit includes a variable resistance unit having a resistance value that varies in accordance with the first control signal, and a resistor connected to the variable resistance unit, and each of the level conversion units converts a level of a voltage at a connection point between the variable resistance unit and the resistor so as to generate the bias signal, and provides the bias signal to the corresponding one of the avalanche photodiodes. 5. The light receiving device according to claim 3 , wherein the divided resistance circuit includes a variable resistance unit having a resistance value that varies in accordance with the first control signal, and each of the level conversion units converts a level of a voltage of a wiper terminal of the variable resistance unit so as to generate the bias signal, and provides the bias signal to the corresponding one of the avalanche photodiodes. 6. The light receiving device according to claim 3 , wherein the divided resistance circuit includes a variable resistance unit having a resistance value that varies in accordance with the first control signal, and a thermistor connected to the variable resistance unit and having a resistance value that varies in accordance with the temperature, and each of the level conversion units converts a level of a voltage at a connection point between the variable resistance unit and the thermistor so as to generate the bias signal, and provides the bias signal to the corresponding one of the avalanche photodiodes.