General Procedures and Information
6-26 11/05 Workcentre PE 220
- Transfer Variation Voltage on Environment Variation: +500 V ~ +5000V
- Control Method on environment: THV-PWM ACTIVE, transfer Active signal, of environment
sensing voltage is input and get feed back current, and recalculate it to resistance.
- Control method on transfer output voltage: It is controlled by changing its duty of THVPWM
Signal as follows. 10% Duty: +500V, 90% Duty: +5000V
(b) Charge Voltage (MHV)
- Input Voltage: 24 V DC +15% / -10% (21.6V~27.6V)
- Out Voltage: -1300KV 50V(50 Load)
- Out Voltage Rising Time: 50 ms Max
- Out Voltage Falling Time: 50msMax
- Out Voltage Range: 30 ~ 1000
- Output Control Signal (MHV-PWM): Active Low PWM signal for controlling MHV
(c) Developing Voltage (DEV)
- Input Voltage: 24V DC +15% / -10% (21.6V~27.6V)
- Output Voltage: -350V 20V (50 Load)
- Output Voltage Fluctuation range: PWM Control
- Input contrast of the output stability degree: 5% or less
- Loading contrast: 5% or less
- Output Voltage Rising Time: 50 ms Max
- Output Voltage Falling Time: 50 ms Max
- Output Loading range: 10 ~1000
- Output Control Signal (BIAS-PWM): Active Low PWM signal for controlling MHV
(d) Supply
- Output Voltage: -550V 50V(50 Load)
- Input contrast of the output stability degree: under 5%
- Loading contrast: 5% or less
- Output Voltage Rising Time: 50 ms Max
- Output Voltage Falling Time: 50 ms Max
- Output Loading range: 10 ~ 1000
- Output Control Signal (BIAS-PWM): Active Low PWM signal for controlling MHV
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