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參數(shù)資料

型號：	USB-I2C/LIN-CONV-Z
廠商：	Analog Devices Inc
文件頁數(shù)：	49/104頁
文件大?。?/td>	0K
描述：	USB TO I2C/LIN CONV BOARD
標準包裝：	1
附件類型：	適配器板
適用于相關(guān)產(chǎn)品：	ARM7TDMI?

Data Sheet

ADuC7019/20/21/22/24/25/26/27/28/29

Rev. F | Page 49 of 104

Pseudo Differential Mode

In pseudo differential mode, Channel is linked to the VIN pin

of the ADuC7019/20/21/22/24/25/26/27/28/29. SW2 switches

between A (Channel) and B (VREF). The VIN pin must be

connected to ground or a low voltage. The input signal on VIN+

can then vary from VIN to VREF + VIN. Note that VIN must be

chosen so that VREF + VIN does not exceed AVDD.

04955-

019

CAPACITIVE

DAC

CAPACITIVE

DAC

CONTROL

LOGIC

COMPARATOR

SW3

SW1

SW2

VREF

AIN0

AIN11

VIN–

MUX

CHANNEL+

CHANNEL–

Figure 56. ADC in Pseudo Differential Mode

Single-Ended Mode

In single-ended mode, SW2 is always connected internally to

ground. The VIN pin can be floating. The input signal range on

VIN+ is 0 V to VREF.

04955-

020

CAPACITIVE

DAC

CAPACITIVE

DAC

CONTROL

LOGIC

COMPARATOR

SW3

SW1

AIN0

AIN11

MUX

CHANNEL+

CHANNEL–

Figure 57. ADC in Single-Ended Mode

Analog Input Structure

Figure 58 shows the equivalent circuit of the analog input structure

of the ADC. The four diodes provide ESD protection for the analog

inputs. Care must be taken to ensure that the analog input

signals never exceed the supply rails by more than 300 mV;

exceeding 300 mV causes these diodes to become forward-

biased and start conducting into the substrate. These diodes can

conduct up to 10 mA without causing irreversible damage to

the part.

The C1 capacitors in Figure 58 are typically 4 pF and can be

primarily attributed to pin capacitance. The resistors are

lumped components made up of the on resistance of the

switches. The value of these resistors is typically about 100 Ω.

The C2 capacitors are the ADC’s sampling capacitors and

typically have a capacitance of 16 pF.

AVDD

R1 C2

AVDD

R1 C2

Figure 58. Equivalent Analog Input Circuit Conversion Phase: Switches Open,

Track Phase: Switches Closed

For ac applications, removing high frequency components from

the analog input signal is recommended by using an RC low-

pass filter on the relevant analog input pins. In applications

where harmonic distortion and signal-to-noise ratio are critical,

the analog input should be driven from a low impedance

source. Large source impedances significantly affect the ac

performance of the ADC. This can necessitate the use of an

input buffer amplifier. The choice of the op amp is a function of

the particular application. Figure 59 and Figure 60 give an

example of an ADC front end.

061

ADuC7019/

ADuC702x

ADC0

0.01F

Figure 59. Buffering Single-Ended/Pseudo Differential Input

ADuC7019/

ADuC702x

ADC0

VREF

ADC1

Figure 60. Buffering Differential Inputs

When no amplifier is used to drive the analog input, the source

impedance should be limited to values lower than 1 kΩ. The

maximum source impedance depends on the amount of total

harmonic distortion (THD) that can be tolerated. The THD

increases as the source impedance increases and the performance

degrades.

DRIVING THE ANALOG INPUTS

Internal or external references can be used for the ADC. In

the differential mode of operation, there are restrictions on the

common-mode input signal (VCM), which is dependent upon

the reference value and supply voltage used to ensure that the

signal remains within the supply rails. Table 28 gives some

calculated VCM minimum and VCM maximum values.

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