CC430F6137_14 Datasheet, PDF(64/120 Page) Texas Instruments

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CC430F6137_14 Datasheet, PDF (64/120 Pages) Texas Instruments – MSP430™ SoC With RF Core

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ECCN 5E002 TSPA - Technology / Software Publicly Available

CC430F6137, CC430F6135, CC430F6127, CC430F6126, CC430F6125

CC430F5137, CC430F5135, CC430F5133

SLAS554H â MAY 2009 â REVISED SEPTEMBER 2013

www.ti.com

12-Bit ADC, Power Supply and Input Range Conditions

over recommended ranges of supply voltage and operating free-air temperature (unless otherwise noted)(1)

AVCC

V(Ax)

IADC12_A

PARAMETER

Analog supply voltage,

Full performance

Analog input voltage range(2)

Operating supply current into

AVCC terminal(3)

TEST CONDITIONS

AVCC and DVCC are connected together,

AVSS and DVSS are connected together,

V(AVSS) = V(DVSS) = 0 V

All ADC12 analog input pins Ax

fADC12CLK = 5.0 MHz, ADC12ON = 1,

REFON = 0, SHT0 = 0, SHT1 = 0,

ADC12DIV = 0

VCC

2.2 V

MIN TYP MAX UNIT

2.2

3.6 V

AVCC V

125 155

ÂµA

150 220

Input capacitance

Only one terminal Ax can be selected at one

time

2.2 V

25 pF

Input MUX ON resistance

0 V â¤ VAx â¤ AVCC

10 200 1900 Î©

(1) The leakage current is specified by the digital I/O input leakage.

(2) The analog input voltage range must be within the selected reference voltage range VR+ to VRâ for valid conversion results. If the

reference voltage is supplied by an external source or if the internal reference voltage is used and REFOUT = 1, then decoupling

capacitors are required. See REF, External Reference and REF, Built-In Reference.

(3) The internal reference supply current is not included in current consumption parameter IADC12_A.

12-Bit ADC, Timing Parameters

over recommended ranges of supply voltage and operating free-air temperature (unless otherwise noted)

PARAMETER

TEST CONDITIONS

VCC

MIN TYP

For specified performance of ADC12 linearity

parameters using an external reference voltage or

AVCC as reference.(1)

0.45 4.8

fADC12CLK ADC conversion clock

For specified performance of ADC12 linearity

parameters using the internal reference.(2)

2.2 V, 3 V 0.45

2.4

For specified performance of ADC12 linearity

parameters using the internal reference.(3)

0.45 2.4

fADC12OSC

Internal ADC12

oscillator (4)

ADC12DIV = 0, fADC12CLK = fADC12OSC

2.2 V, 3 V

4.2 4.8

tCONVERT Conversion time

REFON = 0, Internal oscillator,

fADC12OSC = 4.2 MHz to 5.4 MHz

2.2 V, 3 V

2.4

External fADC12CLK from ACLK, MCLK or SMCLK,

(5)

ADC12SSEL â 0

tSample

Sampling time

Ï = [RS + RI] Ã CI (6)

2.2 V, 3 V 1000

MAX UNIT

5.0

4.0 MHz

2.7

5.4 MHz

3.1

Âµs

(1) REFOUT = 0, external reference voltage: SREF2 = 0, SREF1 = 1, SREF0 = 0. AVCC as reference voltage: SREF2 = 0, SREF1 = 0,

SREF0 = 0. The specified performance of the ADC12 linearity is ensured when using the ADC12OSC. For other clock sources, the

specified performance of the ADC12 linearity is ensured with fADC12CLK maximum of 5.0 MHz.

(2) SREF2 = 0, SREF1 = 1, SREF0 = 0, ADC12SR = 0, REFOUT = 1

(3) SREF2 = 0, SREF1 = 1, SREF0 = 0, ADC12SR = 0, REFOUT = 0. The specified performance of the ADC12 linearity is ensured when

using the ADC12OSC divided by 2.

(4) The ADC12OSC is sourced directly from MODOSC inside the UCS.

(5) 13 Ã ADC12DIV Ã 1/fADC12CLK

(6) Approximately ten Tau (Ï) are needed to get an error of less than Â±0.5 LSB:

tSample = ln(2n+1) x (RS + RI) Ã CI + 800 ns, where n = ADC resolution = 12, RS = external source resistance

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