TH20359B - Composition of the comparator in the analog-to-digital converter. - Google Patents

Abstract

The circuit reduces the required total number of resistors. To provide a reference voltage to a group of comparators in a flash analog-to-digital converter. In such a circuit, the first line of the first group of resistor units is connected to the second line of the first and second terminating resistor units. And a group of second pick-up points is distant from the endpoint. The first active device There will be an entry point connected to the first consecutive selection point of the first line of the first line. Resistor unit and the exit point connected first of the second line of the resistor unit. The second active device has an entry point connected to the second opt-in. Of the first line of the resistor unit and the exit connected to the second end of the second line of the resistor unit.

Claims (7)

1. The circuit consists of Voltage source The first line of the resistance unit across the voltage source. Where the first line provides at least 1k impedance, that first line of the resistive line is added with the first group of the connection point. Second order of the resistor unit The second line has a first and second endpoints. And the second consecutive opt-in, one group, is between them. The first active device with the entry point connected to the first of the first group of the connection point. And has the exit point connected to the first end of the second line of the resistor unit and the second active device with the end point connected to the second point of the first group of the connection point and the exit to the end point. The second of the second line of the resistive unit 2. Circuit according to claim 1, where the first and second active devices consist of a current amplifier with the same voltage gain. 3. Circuit according to claim 1, where the first line of the resistive unit is the type generated by the diffusion method. 4. Circuit according to claim 1, where the sequence of the resistor units compensates for various variations. In working temperature 5. Circuit according to claim 1, where the second line of the resistor unit compensates for various variations. In the voltage source 6. The circuit according to claim 1 will be followed by a group of comparators with the first group of entry points connected to the points. Of the second group of optional points 7. Circuit according to claim 6, where the comparator has a second group of entry points connected to analogue voltage. 8. The circuit according to claim 7 follows a method of decoding the values obtained from the comparator group. 9. Circuit according to claim 8, where the decoding method will provide a digital representation of analog voltage 1 0. Flash analog to digital converter will consist of A voltage source with a first and second connection. Line of the resistive unit that has one end. And two and there is a group of pickpoints between both ends. By amplifying current with the same voltage gain at one with the connection point to the first connection point of the voltage source. And the exit point is connected to the first end of the line of the resistor Current amplifiers with voltage gain. And the exit point is connected to the second end of the line of the resistor unit. A group of comparators with a group of points connected to them. Of the selective junction group, and the second group is bent to the input to the analog voltage. Method for decoding obtained of comparator groups and method of providing digital representation of analog voltages 1. 1.Analog to digital flash converter according to claim 10, where the resistor line is formed using the polysilicon 1 method. 2.Analog to digital flash converter according to claim 10, where the resistor line is formed by the diffusion 1 method. 3. Analogue-to-digital flash converters contain: the first line of the resistor unit with the first and second connection points, such first line provides the input impedance for the converter. Analogs are said to be digital. Second line of a resistor unit with a first and second ends and a series of connection points between them. The second-order resistor unit has a resistance that is almost less than the resistance of the first-order resistor. Such a second line provides the point impedance for such an analog-to-digital converter. One active device with one point having an entry point to the one end of the first line. And the exit point is connected to the said end of the second line; and And a second active device having the aforementioned second connection point of the voltage source. And the exit point is connected to that second end of the line of a resistor unit and an active device with two entry points connected to the second such point of the first line. And the exit point is connected to the said second end of the aforementioned second line The impedance of the said analog-to-digital converter. The gate ob is greater than the impedance at the exit point 1. 4.Analog to digital converter according to claim 13, where each aforementioned resistor of the aforementioned line of the resistor unit has a resistance of at least 1k 1. 5. Analogue-to-Digital Flash Converters according to claim 13, where the first and second active devices of the analog-to-digital converters contain amplifiers with a voltage gain. Same 1 6. Analogue-to-digital flash converter according to claim 13, where the aforementioned second line of the aforementioned analog-to-digital resistor units is generated using the polysilicon 1 method. 7. Analogue to Digital Flash Converters according to claim 13, where such a first line of the analog-to-digital converter resistor units is produced by diffusion. A