JP2011041445A5 - - Google Patents

Description

An image forming apparatus according to a second aspect of the present invention includes the power supply apparatus according to the first aspect of the present invention that outputs a high DC voltage, and is driven by the high DC voltage to form an image .

The SCLK line is a signal line of a serial clock SCLK that outputs a clock synchronized with transfer data, which will be described later, from the printer engine control unit 53 to the control unit 72. The SDI line is a serial data input signal SDI that inputs data to the control unit 72 and is a signal line that transmits data from the printer engine control unit 53 to the control unit 72 in synchronization with the serial clock SCLK. Further, the SDO line is a serial data output signal SDO output from the control unit 72 in synchronization with the serial clock SCLK, and is a signal line for transmitting data in synchronization with the serial clock SCLK.

In the control unit 72 that operates in synchronization with the clock CLK, the piezoelectric transformer drive circuit 74 is connected to the output port OUT11 that outputs the drive pulse S72 via the resistor 72c. The DC power supply 73 is connected to the piezoelectric transformer drive circuit 74. Is connected. The DC power source 73 is, for example, a DC 24V power source that is supplied by transforming and rectifying AC 100V, which is a commercial power source, from a low-voltage power source device (not shown).

The current output from the output terminal of the operational amplifier 77b is supplied to the anode of the diode 76a in the rectifier circuit 76 via the resistor 77d. Since the “+” input terminal of the operational amplifier 77 b is grounded, the voltage level of the “−” input terminal becomes 0 V, and the output signal of the operational amplifier 77 b becomes a voltage corresponding to the current flowing through the rectifier circuit 76. For example, when the resistance value of the resistor 77d is 33 kΩ and the current supplied from the operational amplifier 77b to the rectifier circuit 76 is 10 μA, the output voltage S77 of the operational amplifier 77b is 0.33V. Therefore, the operational amplifier 77b outputs a voltage corresponding to the current output when the piezoelectric transformer 75 is driven by the piezoelectric transformer drive circuit 74. For example, when the resistance 77d is 33 kΩ, the operational amplifier 77b outputs an output voltage S77 of 0 to 3.3 V for a current of 0 to 100 μA supplied from the operational amplifier 77b to the rectifier circuit 76 .

The upper 4 bits of the 8-bit data output from the communication data processing unit 101 to the DAC 72a is input to the counter upper limit table 103, and the counter upper limit value table 103 corresponds to the 4-bit value from the 4-bit (ie, 16 types) 19-bit value table. The 19-bit value is output to the arithmetic unit 105-2. The computing unit 105-2 has a computation result of (calculation result 19bit value)> (counter upper limit value).
In such a case, the calculation result is replaced with a counter upper limit table value 19 bits. The 19-bit register 115 holds the value of the frequency division ratio. The upper 9 bits of the 19-bit register 115 is an integer value, which is a cycle value of 9 bits × 20 nsec (50 MHz). The lower 10 bits of the 19-bit register 115 means a decimal value and means a value of 10 bits / 1024. The handling of decimal values will be described later. The 19-bit register 115 inputs the upper 9 bits to the comparator 109-1, the frequency divider selector 118, and the 1 adder 117. Further, the lower 10 bits of the 19-bit register 115 are output to the error holding register 116. The comparator 109-1 compares the output 9 bit of the D latch 108 with the upper 8 bits of the 19 bit register 115,
If (the output 9-bit value of the D latch 108)> (the upper 8-bit value of the 19-bit register 115), “H” is output to the arithmetic unit 105-2, and “L” is output otherwise.

Claims (1)

An image forming apparatus that includes a power supply device that outputs a DC high voltage and that is driven by the DC high voltage to form an image,
The power supply device
An oscillator for generating a clock;
Based on a control signal, pulse output means for dividing the clock and outputting a pulse;
A switching element driven by the pulse;
A piezoelectric transformer that outputs an alternating high voltage from the secondary side when a voltage is intermittently applied to the primary side by the switching element;
Rectifying means for converting the alternating high voltage into the direct high voltage;
Output current supply means for supplying a secondary output current of the piezoelectric transformer;
Current-voltage conversion means for converting the secondary output current into a voltage and outputting an output voltage;
Target current setting means for setting a target current and outputting a target voltage corresponding to the target current;
Voltage comparison means for comparing the output voltage with the target voltage and outputting a comparison result;
By changing the output frequency of the pulse according to the comparison result, and controlling the output frequency so that the comparison result becomes a rectangular wave at the output period of the pulse, constant current control is performed for the high DC voltage An image forming apparatus.