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поискавой системы для электроныых деталей |
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поискавой системы для электроныых деталей |
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CS4124 датащи(PDF) 4 Page - Cherry Semiconductor Corporation |
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CS4124 датащи(HTML) 4 Page - Cherry Semiconductor Corporation |
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4 / 6 page  1198 Application Information Oscillator The IC sets up a constant frequency triangle wave at the COSC lead whose frequency is related to the external com- ponents ROSC and COSC, by the following equation: Frequency = The peak and valley of the triangle wave are proportional to VCC by the following: VVALLEY = 0.1 × VCC VPEAK = 0.7 × VCC This is required to make the voltage compensation function properly. In order to keep the frequency of the oscillator constant the current that charges COSC must also vary with supply. ROSC sets up the current which charges COSC. The voltage across ROSC is 50% of VCC and therefore: IROSC = 0.5 × IROSC is multiplied by (2) internally and transferred to the COSC lead. Therefore: ICOSC = ± The period of the oscillator is: T = 2COSC × The ROSC and COSC components can be varied to create fre- quencies over the range of 15Hz to 25kHz. With the sug- gested values of 93.1kΩ and 470pF for ROSC and COSC , the nominal frequency will be approximately 20 kHz. IROSC, at VCC = 14V, will be 66.7 µA. IROSC should not change over a more than 2:1 ratio and therefore COSC should be changed to adjust the oscillator frequency. Voltage Duty Cycle Conversion The IC translates an input voltage at the CTL lead into a duty cycle at the OUTPUT lead. The transfer function incorporates Cherry Semiconductor’s patented Voltage Compensation method to keep the average voltage and current across the load constant regardless of fluctuations in the supply voltage. The duty cycle is varied based upon the input voltage and supply voltage by the following equation: Duty Cycle = 100% × An internal DC voltage equal to: VDC = (1.683 × VCTL) + VVALLEY is compared to the oscillator voltage to produce the com- pensated duty cycle. The transfer is set up so that when VCC = 14V the duty cycle will equal VCTL divided by VREG. For example at VCC = 14V, VREG = 5V and VCTL = 2.5V, the duty cycle would be 50% at the output. This would place a 7V average voltage across the load. If VCC then drops to 10V, the IC would change the duty cycle to 70% and hence keep the average load voltage at 7V. Figure 1: Voltage Compensation 5V Linear Regulator There is a 5V, 5mA linear regulator available at the VREG lead for external use. This voltage acts as a reference for many internal and external functions. It has a drop out of approximately 1.5V at room temperature. Current Sense and Timer The IC differentially monitors the load current on a cycle by cycle basis at the ISENSE+ and ISENSE- leads. The differen- tial voltage across these two leads is amplified internally and compared to the voltage at the IADJ lead. The gain, AV is set internally and externally by the following equation: AV == The current limit (ILIM) is set by the external current sense resistor (RSENSE) placed across the ISENSE+ and ISENSE- ter- minals and the voltage at the IADJ lead. ILIM = × The RCS resistors and CCS components form a differential low pass filter which filters out high frequency noise gen- erated by the switching of the external MOSFET and the associated lead noise. RCS also forms and error term in the gain of the ILIM equation because the ISENSE+ and ISENSE- leads are low impedance inputs thereby creating a good current sensing amplifier. Both leads source 50µA while the chip is in run mode. IADJ should be biased between 1V and 4V. When the current through the external MOSFET VI(ADJ) RSENSE 1000 + RCS 37000 37000 1000 + RCS VI(ADJ) ISENSE+ - ISENSE- 120% 100% 80% 60% 40% 20% 0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100% CTL Voltage (% of VREG) VCC = 8V VCC = 14V VCC = 16V 2.8 × VCTL VCC VPEAK - VVALLEY ICOSC VCC ROSC VCC ROSC 0.83 ROSC × COSC Theory Of Operation |
Аналогичный номер детали - CS4124 |
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Аналогичное описание - CS4124 |
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