Datasheet MCP47FXBXX (Microchip) - 10

HerstellerMicrochip
BeschreibungTypical Performance Curves
Seiten / Seite102 / 10 — MCP47FXBXX. Note:. 12-bit: VRxB:VRxA = ‘00’ (VDD Mode),. Gx = ‘0’ (1x). …
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DokumentenspracheEnglisch

MCP47FXBXX. Note:. 12-bit: VRxB:VRxA = ‘00’ (VDD Mode),. Gx = ‘0’ (1x). Typical Device. FIGURE 1-44:. FIGURE 1-47:. MCP47FXB21

MCP47FXBXX Note: 12-bit: VRxB:VRxA = ‘00’ (VDD Mode), Gx = ‘0’ (1x) Typical Device FIGURE 1-44: FIGURE 1-47: MCP47FXB21

Modelllinie für dieses Datenblatt

MCP47FEB01
MCP47FEB02
MCP47FEB04
MCP47FEB08
MCP47FEB11
MCP47FEB12
MCP47FEB14
MCP47FEB21
MCP47FEB22
MCP47FEB24
MCP47FEB28
MCP47FVB01
MCP47FVB02
MCP47FVB04
MCP47FVB08
MCP47FVB11
MCP47FVB12
MCP47FVB21
MCP47FVB22

Textversion des Dokuments

link to page 99 link to page 99
MCP47FXBXX Note:
Unless otherwise indicated, TA = +25°C, VDD = 5.5V.
12-bit: VRxB:VRxA = ‘00’ (VDD Mode), Gx = ‘0’ (1x) Typical Device Typical Device FIGURE 1-44:
DNL Error vs. DAC Code,
FIGURE 1-47:
DNL Error vs. DAC Code, and Temperature (Code 100 - 4000) and Temperature (Code 100 - 4000) (Single Channel -
MCP47FXB21
) (Dual Channel -
MCP47FXB22
) (
12-bit
: VDD = 5.5V, VRxB:VRxA = ‘00’ (VDD), (
12-bit
: VDD = 5.5V, VRxB:VRxA = ‘00’ (VDD), Gx = ‘0’ (1x)). Gx = ‘0’ (1x)).
Typical Device Typical Device FIGURE 1-45:
DNL Error vs. DAC Code,
FIGURE 1-48:
DNL Error vs. DAC Code, and Temperature (Code 100 - 4000) and Temperature (Code 100 - 4000) (Single Channel -
MCP47FXB21
) (Dual Channel -
MCP47FXB22
) (
12-bit
: VDD = 2.7V, VRxB:VRxA = ‘00’ (VDD), (
12-bit
: VDD = 2.7V, VRxB:VRxA = ‘00’ (VDD), Gx = ‘0’ (1x)). Gx = ‘0’ (1x)).
Typical Device Typical Device FIGURE 1-46:
DNL Error vs. DAC Code,
FIGURE 1-49:
DNL Error vs. DAC Code, and Temperature (Code 100 - 4000) and Temperature (Code 100 - 4000) (Single Channel -
MCP47FXB21
) (Dual Channel -
MCP47FXB22
) (
12-bit
: VDD = 1.8V, VRxB:VRxA = ‘00’ (VDD), (
12-bit
: VDD = 1.8V, VRxB:VRxA = ‘00’ (VDD), Gx = ‘0’ (1x)) Gx = ‘0’ (1x)) (see
Appendix B.1
for additional information). (see
Appendix B.1
for additional information). DS20005378A-page 10  2015 Microchip Technology Inc. Document Outline 1.0 Typical Performance Curves 12-bit VDD Mode Bandgap Mode VREF Unbuffered Mode, VREF = VDD VREF Unbuffered Mode, VREF = 1V VREF Unbuffered Mode, VREF = 2.048V VREF Buffered Mode, VREF = VDD VREF Buffered Mode, VREF = 1V VREF Buffered Mode, VREF = 2.048V 10-bit VDD Mode Bandgap Mode VREF Unbuffered Mode, VREF = VDD VREF Unbuffered Mode, VREF = 1V VREF Unbuffered Mode, VREF = 2.048V VREF Buffered Mode, VREF = VDD VREF Buffered Mode, VREF = 1V VREF Buffered Mode, VREF = 2.048V 8-bit VDD Mode Badgap Mode VREF Unbuffered Mode, VREF = VDD VREF Unbuffered Mode, VREF = 1V VREF Unbuffered Mode, VREF = 2.048V VREF Buffered Mode, VREF = VDD VREF Buffered Mode, VREF = 1V VREF Buffered Mode, VREF = 2.048V Appendix A: Revision History Appendix B: Characterization Graph Performance Insights B.1 VDD Mode at VDD = 1.8V B.2 VREF Unbuffered Mode with VREF = VDD and a Gain of 1x at VDD = 1.8V B.3 VREF Unbuffered Mode with VREF = 1V and a Gain of 2x at VDD = 1.8V B.4 Buffered Mode with VREF = VDD and a Gain of 1x at VDD = 1.8V B.5 VREF Buffered Mode with VREF = 1V and a Gain of 2x at VDD = 1.8V Trademarks Worldwide Sales and Service