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CM6802IS Datasheet(PDF) 9 Page - Champion Microelectronic Corp. |
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CM6802IS Datasheet(HTML) 9 Page - Champion Microelectronic Corp. |
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9 / 18 page  CM6802 NO BLEED RESISTOR GREEN MODE PFC/PWM CONTROLLER COMBO 2003/06/25 Preliminary Champion Microelectronic Corporation Page 9 Such supplies present a power factor to the line of less than one (i.e. they cause significant current harmonics of the power line frequency to appear at their input). If the input current drawn by such a supply (or any other nonlinear load) can be made to follow the input voltage in instantaneous amplitude, it will appear resistive to the AC line and a unity power factor will be achieved. To hold the input current draw of a device drawing power from the AC line in phase with and proportional to the input voltage, a way must be found to prevent that device from loading the line except in proportion to the instantaneous line voltage. The PFC section of the CM6802 uses a boost-mode DC-DC converter to accomplish this. The input to the converter is the full wave rectified AC line voltage. No bulk filtering is applied following the bridge rectifier, so the input voltage to the boost converter ranges (at twice line frequency) from zero volts to the peak value of the AC input and back to zero. By forcing the boost converter to meet two simultaneous conditions, it is possible to ensure that the current drawn from the power line is proportional to the input line voltage. One of these conditions is that the output voltage of the boost converter must be set higher than the peak value of the line voltage. A commonly used value is 385VDC, to allow for a high line of 270VACrms. The other condition is that the current drawn from the line at any given instant must be proportional to the line voltage. Establishing a suitable voltage control loop for the converter, which in turn drives a current error amplifier and switching output driver satisfies the first of these requirements. The second requirement is met by using the rectified AC line voltage to modulate the output of the voltage control loop. Such modulation causes the current error amplifier to command a power stage current that varies directly with the input voltage. In order to prevent ripple, which will necessarily appear at the output of boost circuit (typically about 10VAC on a 385V DC level), from introducing distortion back through the voltage error amplifier, the bandwidth of the voltage loop is deliberately kept low. A final refinement is to adjust the overall gain of the PFC such to be proportional to 1/VIN2, which linearizes the transfer function of the system as the AC input to voltage varies. Since the boost converter topology in the CM6802 PFC is of the current-averaging type, no slope compensation is required. PFC Section Gain Modulator Figure 1 shows a block diagram of the PFC section of the CM6802. The gain modulator is the heart of the PFC, as it is this circuit block which controls the response of the current loop to line voltage waveform and frequency, rms line voltage, and PFC output voltages. There are three inputs to the gain modulator. These are: 1. A current representing the instantaneous input voltage (amplitude and waveshape) to the PFC. The rectified AC input sine wave is converted to a proportional current via a resistor and is then fed into the gain modulator at IAC. Sampling current in this way minimizes ground noise, as is required in high power switching power conversion environments. The gain modulator responds linearly to this current. 2. A voltage proportional to the long-term RMS AC line voltage, derived from the rectified line voltage after scaling and filtering. This signal is presented to the gain modulator at VRMS. The gain modulator’s output is inversely proportional to VRMS 2 (except at unusually low values of VRMS where special gain contouring takes over, to limit power dissipation of the circuit components under heavy brownout conditions). The relationship between VRMS and gain is called K, and is illustrated in the Typical Performance Characteristics. The output of the voltage error amplifier, VEAO. The gain modulator responds linearly to variations in this voltage. The output of the gain modulator is a current signal, in the form of a full wave rectified sinusoid at twice the line frequency. This current is applied to the virtual-ground (negative) input of the current error amplifier. In this way the gain modulator forms the reference for the current error loop, and ultimately controls the instantaneous current draw of the PFC form the power line. The general for of the output of the gain modulator is: IGAINMOD = 2 RMS AC V VEAO I × x 1V (1) More exactly, the output current of the gain modulator is given by: IGAINMOD = K x (VEAO – 0.625V) x IAC Where K is in units of V -1 Note that the output current of the gain modulator is limited around 228.47µA and the maximum output voltage of the gain modulator is limited to 228.47uA x 3.5K=0.8V. This 0.8V also will determine the maximum input power. However, IGAINMOD cannot be measured directly from ISENSE. ISENSE = IGAINMOD-IOFFSET and IOFFSET can only be measured when VEAO is less than 0.5V and IGAINMOD is 0A. Typical IOFFSET is around 60uA. IAC Typically, it has a feedforward resistor, RAC, less than 500K ohm resistor connected between this pin and rectified line input voltage. During the startup condition, it supplies the startup current; therefore, the system does not require additional bleed resistor to start up the chip. |
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