| 摘要 |
A circuit for increasing the precision of an N-bit digital-to-analog converter. The N-bit digital-to-analog converter includes a digital signal input and an analog signal output. The analog signal output connects to the analog signal input of a translating circuit. The translating circuit includes an analog signal output and a bias enable input. The N-bit digital-to-analog converter receives an N-bit digital signal and converts it into a first analog output signal having 2n possible values over a first voltage range. When the enable input is in an enabled state, the translating circuit translates the first analog output signal into a second analog voltage having 2n possible values over a second voltage range, the second voltage range having a smaller maximum value than maximum value of the first voltage range. When the enable input is in a disabled state, the translating circuit translates the first analog output signal into the second analog voltage having 2n possible values over a third voltage range, the third voltage range having a larger minimum value than the minimum value of the first voltage range. As a result, the full precision range of the N-bit digital-to-analog converter is applied to two voltage ranges within the original voltage range of the N-bit digital-to-analog converter. Thus, the precision of the N-bit digital-to-analog converter is increased. |
