at T_A = 25°C, V_CC = 15 V, V_SS = –15 V, AV_DD = 5 V, IOV_DD = 1.8 V, gain resistors unconnected (gain = 1x), OPA827 used as reference amplifier, OPA828 used as output amplifier, UP = unipolar, BP = bipolar, and temperature calibration disabled (unless otherwise noted)

Figure 6-3 Integral Linearity Error vs Digital Input Code

Temperature calibration enabled

Figure 6-5 Integral Linearity Error vs Temperature

Temperature calibration enabled

Figure 6-7 Zero Code Error vs Temperature

Temperature calibration enabled

Figure 6-9 Gain Error vs Temperature

Figure 6-11 Differential Linearity Error vs Supply Voltage

Figure 6-13 Positive Full-Scale Error vs Supply Voltage

Figure 6-15 Integral Linearity Error vs Reference Voltage

Figure 6-17 Zero Code Error vs Reference Voltage

Figure 6-19 Positive Full-Scale Error vs Reference Voltage

VREFPF = 10 V, VREFNF = 0 V

Figure 6-21 Supply Current (V_CC and V_SS)
vs Digital Input Code

VREFPF = 10 V, VREFNF = 0 V

Figure 6-23 Supply Current (AV_DD) vs Digital Input Code

VREFPF = 10 V, VREFNF = 0 V, DAC at midcode

Figure 6-25 Supply Current (V_CC and V_SS)
vs Temperature

VREFPF = 10 V, VREFNF = 0 V, DAC at midcode

Figure 6-27 Supply Current (AV_DD) vs Temperature

VREFPF = 10 V, VREFNF = 0 V, DAC at midcode

Figure 6-29 Supply Current (IOV_DD)
vs Input Pin Logic Level

VREFPF = 10 V, VREFNF = –10 V,

DAC transition midcode – 1 to midcode

Figure 6-31 Glitch Impulse, Rising Edge, 1-LSB Step

VREFPF = 10 V, VREFNF = –10 V

Figure 6-33 Segment Glitch Impulse, 1-LSB Step

VREFPF = 5 V, VREFNF = 0 V

Figure 6-35 Segment Glitch Impulse, 1-LSB Step

VREFPF = 10 V, VREFNF = 0 V

Figure 6-37 Full-Scale Settling Time, Rising Edge

VREFPF = 10 V, VREFNF = 0 V,

DAC transitions 100 codes around midscale

Figure 6-39 100 Codes Settling Time, Rising Edge

VREFPF = 10 V, VREFNF = 0 V, measured at DAC output

Figure 6-41 DAC Output Noise Spectral Density

DAC update rate = 768 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-43 1-kHz Spectrum vs Frequency

DAC update rate = 1 MHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 150-kHz output filter

Figure 6-45 100-kHz Spectrum vs Frequency

DAC update rate = 768 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-47 Total Harmonic Distortion
vs Output Frequency, f_DAC = 768 kHz

DAC update rate = 768 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-49 Second Harmonic Distortion
vs Output Frequency, f_DAC = 768 kHz

DAC update rate = 1 MHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 150-kHz output filter

Figure 6-51 Spurious Free Dynamic Range
vs Output Frequency, f_DAC = 1 MHz

DAC update rate = 1 MHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 150-kHz output filter

Figure 6-53 Total Harmonic Distortion + Noise
vs Output Frequency, f_DAC = 1 MHz

DAC update rate = 1 MHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 150-kHz output filter

Figure 6-55 Third Harmonic Distortion
vs Output Frequency, f_DAC = 1 MHz

DAC output frequency = 20 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-57 Total Harmonic Distortion vs Update Rate

DAC output frequency = 20 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-59 Second Harmonic Distortion vs Update Rate

Figure 6-4 Differential Linearity Error vs Digital Input Code

Temperature calibration enabled

Figure 6-6 Differential Linearity Error vs Temperature

Temperature calibration enabled

Figure 6-8 Positive Full-Scale Error vs Temperature

Figure 6-10 Integral Linearity Error vs Supply Voltage

Figure 6-12 Zero Code Error vs Supply Voltage

Figure 6-14 Gain Error vs Supply Voltage

Figure 6-16 Differential Linearity Error vs Reference Voltage

Figure 6-18 Gain Error vs Reference Voltage

VREFPF = 10 V, VREFNF = 0 V

Figure 6-20 Supply Current (DV_DD and IOV_DD) vs Digital Input Code

VREFPF = 10 V, VREFNF = 0 V

Figure 6-22 Reference Current (V_REFPF and V_REFNF) vs Digital Input Code

VREFPF = 10 V, VREFNF = 0 V, DAC at midcode

Figure 6-24 Supply Current (DV_DD) vs Temperature

VREFPF = 10 V, VREFNF = 0 V, DAC at midcode

Figure 6-26 Reference Current (V_REFPF and V_REFNF)
vs Temperature

VREFPF = 5 V, VREFNF = 0 V, DAC at midcode

Figure 6-28 Supply Current (V_CC and V_SS) vs Supply Voltage

VREFPF = 10 V, VREFNF = 0 V, DAC at midcode

Figure 6-30 Supply Current (IOV_DD)
vs Input Pin Logic Level

VREFPF = 10 V, VREFNF = –10 V,

DAC transition midcode to midcode – 1

Figure 6-32 Glitch Impulse, Falling Edge, 1-LSB Step

VREFPF = 10 V, VREFNF = 0 V

Figure 6-34 Segment Glitch Impulse, 1-LSB Step

VREFPF = 10 V, VREFNF = 0 V,

DAC at midcode, measured at DAC output pin

Figure 6-36 Clock Feedthrough

VREFPF = 10 V, VREFNF = 0 V

Figure 6-38 Full-Scale Settling Time, Falling Edge

VREFPF = 10 V, VREFNF = 0 V,

DAC transitions 100 codes around midscale

Figure 6-40 100 Codes Settling Time, Falling Edge

VREFPF = 10 V, VREFNF = 0 V,

DAC at midcode, measured at DAC output pin

Figure 6-42 DAC Output Noise: 0.1 Hz to 10 Hz

DAC update rate = 768 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-44 20-kHz Spectrum vs Frequency

DAC update rate = 768 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-46 Spurious Free Dynamic Range
vs Output Frequency, f_DAC = 768 kHz

DAC update rate = 768 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-48 Total Harmonic Distortion + Noise
vs Output Frequency, f_DAC = 768 kHz

DAC update rate = 768 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-50 Third Harmonic Distortion
vs Output Frequency, f_DAC = 768 kHz

DAC update rate = 1 MHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 150-kHz output filter

Figure 6-52 Total Harmonic Distortion
vs Output Frequency, f_DAC = 1 MHz

DAC update rate = 1 MHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 150-kHz output filter

Figure 6-54 Second Harmonic Distortion
vs Output Frequency, f_DAC = 1 MHz

DAC output frequency = 20 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-56 Spurious Free Dynamic Range vs Update Rate

DAC output frequency = 20 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-58 Total Harmonic Distortion + Noise vs Update Rate

DAC output frequency = 20 kHz, VREFPF = 4.5 V, VREFNF = −4.5 V, sixth-order, low-pass, 30-kHz output filter

Figure 6-60 Third Harmonic Distortion vs Update Rate