High-precision resistance measurement system and method combining micro-differential method and ratiometric method

What is claimed is: 1. A high-precision resistance measurement system combining a micro-differential method and a ratiometric method, comprising: a constant-current source, a reference resistor, a first differential amplifier, a programmable gain amplifier (PGA), an analog-to-digital converter (ADC), a microprocessor, a digital-to-analog converter (DAC), and a to-be-measured resistor interface, wherein the to-be-measured resistor interface is configured to connect to a to-be-measured resistor; the reference resistor and the to-be-measured resistor are connected in series to form a series branch, wherein one terminal of the series branch is connected to the constant-current source, and an other terminal of the series brand is grounded; two input terminals of the first differential amplifier are respectively connected to two terminals of the reference resistor, and an output terminal of the first differential amplifier is connected to a voltage reference terminal of the ADC; a voltage reference terminal of the DAC is also connected to the output terminal of the first differential amplifier; a first input terminal of the PGA is configured to connect to a single-ended voltage to ground of the to-be-measured resistor, a second input terminal of the PGA is operable to be selectively connected to an output terminal of the DAC or grounded, and an output terminal of the PGA is connected to an input terminal of the ADC, wherein the single-ended voltage to ground of the to-be-measured resistor corresponds to a voltage drop across the to-be-measured resistor; and an output terminal of the ADC and an input terminal of the DAC are both connected to the microprocessor. 2. The high-precision resistance measurement system according to claim 1 , wherein the constant-current source, the reference resistor, the to-be-measured resistor, and ground are connected in sequence to form the series branch, and the first input terminal of the PGA is connected to an ungrounded terminal of the to-be-measured resistor; or the high-precision resistance measurement system further comprises a second differential amplifier, wherein the constant-current source, the to-be-measured resistor, the reference resistor, and ground are connected in sequence to form the series branch, two input terminals of the second differential amplifier are respectively connected to two terminals of the to-be-measured resistor, an output terminal of the second differential amplifier is connected to the first input terminal of the PGA, and the second differential amplifier has a gain factor of 2. 3. The high-precision resistance measurement system according to claim 1 , wherein a control terminal of the PGA is connected to the microprocessor, and an amplification factor of the PGA is set by the microprocessor. 4. The high-precision resistance measurement system according to claim 1 , wherein an amplification factor of the PGA satisfies the following condition: a voltage value outputted by the PGA is less than a maximum conversion value of the ADC. 5. The high-precision resistance measurement system according to claim 1 , further comprising: a first switch element, wherein a control terminal of the first switch element is connected to the microprocessor and is used by the microprocessor to control the second input terminal of the PGA to be connected to the output terminal of the DAC or ground; and/or a second switch element, wherein a control terminal of the second switch element is connected to the microprocessor and is used by the microprocessor to control the output terminal of the first differential amplifier to be connected to or disconnected from the voltage reference terminal of the ADC; and/or a third switch element, wherein a control terminal of the third switch element is connected to the microprocessor and is used by the microprocessor to control the output terminal of the first differential amplifier to be connected to or disconnected from the voltage reference terminal of the DAC. 6. A high-precision resistance measurement method combining a micro-differential method and a ratiometric method, comprising the following steps: step 1: connecting a to-be-measured resistor to the to-be-measured resistor interface of the high-precision resistance measurement system according to claim 1 , wherein the second input terminal of the PGA is grounded; step 2: acquiring, by the microprocessor, an analog-to-digital conversion result corresponding to the to-be-measured resistor: step 2.1: amplifying, by the PGA, a single-ended voltage to ground U S of the to-be-measured resistor by a factor of A1 to obtain a first voltage U S *A1, performing, by the ADC, analog-to-digital conversion on the first voltage U S *A1 to obtain a first voltage digital quantity D1, and reading, by the microprocessor, the first voltage digital quantity D1 from the ADC; step 2.2: calculating and outputting, by the microprocessor, a given voltage digital quantity D1′ according to a resolution of the DAC and transmitting the given voltage digital quantity to the DAC, performing, by the DAC, digital-to-analog conversion on the given voltage digital quantity D1′ to obtain a given voltage U1, wherein D ⁢ ⁢ 1 ′ = ⌊ ( D ⁢ ⁢ 1 - n ) * p ⁢ ⁢ 1 A ⁢ ⁢ 1 * 1 p ⁢ ⁢ 2 ⌋ = ⌊ D ⁢ ⁢ 1 - n A ⁢ ⁢