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Transcript
C8051F120 VREF Reference Voltage SFR PAGE 0 = ADC0_PAGE Voltage references are needed before the ADCs or DACs may be used. See Reference Manual, Ch 9, Fig 9.1 SOURCES 5 main sources on C8051F120 Internal NOTE: BIASE must be set to 1 for all ADC & DAC, even if external source is used. 2.4V = 1.2V(Band-gap) x 2 High accuracy (15ppm/°C) 3.3V (AV+) pwr supply (to ADC2) REF0CN.1-REF0CN.0 (BIASE & REFBE) REF0CN.4 (AD0VRS) REF0CN.3 (AD2VRS) Make sure REFBE = 0 (bias buffer is OFF) before applying voltage to REF0. Any stable voltage supply 3.3V (AV+ - 0.3V) REF0: J20, pin 7 AGND: J20, pin 8 Accuracy of chosen supply 4.7F tantalum & 0.1F ceramic capacitors Connect C between AGND & VREF See Reference Manual Fig 9.1 To ADC0 & ADC2 REF0CN.4-REF0CN.3 (AD0VRS-AD2VRS) Fixed to VREFD J22, 1-2 J22, 3-4 J22, 5-6 DAC0 output (to ADC0) External Stabilize VREF with C Distribution of VREF To DAC0 & DAC1 VREF VREFD VREF VREF0 VREF VREF1 Temperature Sensor Power up sensor, enable output to ADC0 AMUX channel 9 Jumper Block: See Development Kit Users Guide Section 7.9 REF0CN.2 (TEMPE) NOTE: With ADC0 in differential mode, negative voltages down to –VREF may be input and converted into 2’s compliment binary numbers. This is done without supplying a voltage value of –VREF to the processor. VDD is the digital power supply voltage (+2.7V - +3.6V range, but 3.3V is used on EVB), DGND is the corresponding digital supply ground AV+ is the analog power supply voltage (+2.7V - +3.6V range, but 3.3V is used on EVB), AGND is the corresponding analog supply ground
