at TA = 25°C, reference = 1.8 V, and
DAC outputs unloaded (unless otherwise noted)
Figure 7-2 Integral Nonlinearity vs Digital Input Code Figure 7-4 Integral Nonlinearity vs Temperature Figure 7-6 Integral Nonlinearity vs Supply Voltage Figure 7-8 Differential Nonlinearity vs Digital Input Code Figure 7-10 Differential Nonlinearity vs Temperature Figure 7-12 Differential Nonlinearity vs Supply Voltage Figure 7-14 Total
Unadjusted Error vs Digital Input Code Figure 7-16 Total
Unadjusted Error vs Temperature Figure 7-18 Total
Unadjusted Error vs Supply Voltage Figure 7-20 Zero-Code Error vs Temperature Figure 7-22 Zero-Code Error vs Supply Voltage Figure 7-24 Offset Error vs Temperature Figure 7-26 Offset Error vs Supply Voltage Figure 7-28 Gain
Error vs Temperature Figure 7-30 Gain
Error vs Supply Voltage Figure 7-32 Full-Scale Error vs Temperature Figure 7-34 Full-Scale Error vs Supply Voltage Figure 7-3 Integral Nonlinearity vs Digital Input Code Figure 7-5 Integral Nonlinearity vs Temperature Figure 7-7 Integral Nonlinearity vs Voltage Reference Figure 7-9 Differential Nonlinearity vs Digital Input Code Figure 7-11 Differential Nonlinearity vs Temperature Figure 7-13 Differential Nonlinearity vs Voltage Reference Figure 7-15 Total
Unadjusted Error vs Digital Input Code Figure 7-17 Total
Unadjusted Error vs Temperature Figure 7-19 Total
Unadjusted Error vs Voltage Reference Figure 7-21 Zero-Code Error vs Temperature Figure 7-23 Zero-Code Error vs Voltage Reference Figure 7-25 Offset Error vs Temperature Figure 7-27 Offset Error vs Voltage Reference Figure 7-29 Gain
Error vs Temperature Figure 7-31 Gain
Error vs Voltage Reference Figure 7-33 Full-Scale Error vs Temperature Figure 7-35 Full-Scale Error vs Voltage Reference