Datasheet MCP47FXBXX (Microchip) - 9

Производитель	Microchip
Описание	Typical Performance Curves
Страниц / Страница	102 / 9 — MCP47FXBXX. Note:. 12-bit: VRxB:VRxA = ‘00’ (VDD Mode),. Gx = ‘0’ (1x). …
Формат / Размер файла	PDF / 62.8 Мб
Язык документа	английский

MCP47FXBXX. Note:. 12-bit: VRxB:VRxA = ‘00’ (VDD Mode),. Gx = ‘0’ (1x). Typical Device. FIGURE 1-38:. FIGURE 1-41:. MCP47FXB21

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Модельный ряд для этого даташита

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MCP47FEB02

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MCP47FEB04

MCP47FEB08

MCP47FEB08-20E/ST MCP47FEB08-E/MQ MCP47FEB08T-20E/ST MCP47FEB08T-E/MQ

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MCP47FEB22

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MCP47FVB02

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MCP47FVB12

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MCP47FVB22

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Текстовая версия документа

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 1-38:
INL Error vs. DAC Code,
FIGURE 1-41:
INL 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 1-39:
INL Error vs. DAC Code,
FIGURE 1-42:
INL 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 1-40:
INL Error vs. DAC Code,
FIGURE 1-43:
INL 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).  2015 Microchip Technology Inc. DS20005378A-page 9 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

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