MSP430x22x2, MSP430x22x4

MIXED SIGNAL MICROCONTROLLER

SLAS504B − JULY 2006 − REVISED JULY 2007

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

POST OFFICE BOX 1443 • HOUSTON, TEXAS 77251−1443

electrical characteristics over recommended ranges of supply voltage and operating free-air

temperature (unless otherwise noted) (continued)

10-bit ADC, timing parameters

PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT

ADC10 input clock frequency

For specified

erformance of

ADC10SR=0

2 2 V/3 V

0.45 6.3

MHz

ADC10CLK

ADC10 input clock frequency

performance

ADC10 linearity

parameters

ADC10SR=1

2.2 V/3 V

0.45 1.5

MHz

ADC10OSC

ADC10 built-in oscillator frequency

ADC10DIVx = 0, ADC10SSELx = 0,

ADC10CLK

= f

ADC10OSC

2.2 V/3 V 3.7 6.3 MHz

Conversion time

ADC10 built-in oscillator,

ADC10SSELx = 0,

ADC10CLK

= f

ADC10OSC

2.2 V/3 V 2.06 3.51

μs

CONVERT

Conversion time

ADC10CLK

from ACLK, MCLK or

SMCLK, ADC10SSELx ≠ 0

13×

ADC10DIV×

1/f

ADC10CLK

μs

ADC10ON

Turn on settling time of the ADC (see Note 1) 100 ns

NOTES: 1. The condition is that the error in a conversion started after t

ADC10ON

is less than ±0.5 LSB. The reference and input signal are already

settled.

10-bit ADC, linearity parameters

PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT

Integral linearity error 2.2 V/3 V ±1 LSB

Differential linearity error 2.2 V/3 V ±1 LSB

Offset error

Source impedance R

< 100 Ω, 2.2 V/3 V ±1 LSB

SREFx = 010, unbuffered external

reference, V

eREF+

= 1.5 V

2.2 V ±1.1 ±2

SREFx = 010, unbuffered external

reference, V

eREF+

= 2.5 V

3 V ±1.1 ±2

Gain error

SREFx = 011, buffered external

reference (see Note 1),

eREF+

= 1.5 V

2.2 V ±1.1 ±4

LSB

SREFx = 011, buffered external

reference (see Note 1),

eREF+

= 2.5 V

3 V ±1.1 ±3

SREFx = 010, unbuffered external

reference, V

eREF+

= 1.5 V

2.2 V ±2 ±5

SREFx = 010, unbuffered external

reference, V

eREF+

= 2.5 V

3 V ±2 ±5

Total unadjusted error

SREFx = 011, buffered external

reference (see Note 1),

eREF+

= 1.5 V

2.2 V ±2 ±7

LSB

SREFx = 011, buffered external

reference (see Note 1),

eREF+

= 2.5 V

3 V ±2 ±6

NOTES: 1. The reference buffer offset adds to the gain and total unadjusted error.

MSP430x22x2, MSP430x22x4

MIXED SIGNAL MICROCONTROLLER

SLAS504B − JULY 2006 − REVISED JULY 2007

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

POST OFFICE BOX 1443 • HOUSTON, TEXAS 77251−1443

electrical characteristics over recommended ranges of supply voltage and operating free-air

temperature (unless otherwise noted) (continued)

10-bit ADC, temperature sensor and built-in V

MID

PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT

Temperature sensor supply REFON = 0, INCHx = 0Ah,

2.2 V 40 120

μA

SENSOR

Temperature

sensor

supply

current (see Note 1)

REFON

INCHx

0Ah

= 25_C

3 V 60 160

μA

SENSOR

†

ADC10ON = 1, INCHx = 0Ah

(see Note 2)

2.2 V/3 V 3.44 3.55 3.66 mV/°C

Offset,Sensor

Sensor offset voltage

ADC10ON = 1, INCHx = 0Ah

(see Note 2)

−100 100 mV

Temperature sensor voltage

at T

= 105°C (T version only)

2.2 V/3 V 1265 1365 1465

Sensor out

ut volta

Temperature sensor voltage

at T

= 85°C

2.2 V/3 V 1195 1295 1395

Sensor

output

voltage

(see Note 3)

Temperature sensor voltage

at T

= 25°C

2.2 V/3 V 985 1085 1185

Temperature sensor voltage

at T

= 0°C

2.2 V/3 V 895 995 1095

Sensor(sample)

Sample time required if

channel 10 is selected

(see Note 4)

ADC10ON = 1, INCHx = 0Ah,

Error of conversion result ≤ 1 LSB

2.2 V/3 V 30 μs

Current into divider at

ADC10ON 1 INCHx 0Bh

2.2 V NA

VMID

Current

into

divider

channel 11 (see Note 5)

ADC10ON = 1, INCHx = 0Bh

3 V NA

μA

V divider at channel 11

ADC10ON = 1, INCHx = 0Bh,

2.2 V 1.06 1.1 1.14

MID

divider at channel 11

ADC10ON

INCHx

0Bh

MID

is ≈0.5 x V

3 V 1.46 1.5 1.54

Sample time required if

channel 11 is selected

ADC10ON = 1, INCHx = 0Bh,

2.2 V 1400

VMID(sample)

channel 11 is selected

(see Note 6)

ADC10ON

INCHx

0Bh

Error of conversion result ≤ 1 LSB

3 V 1220

NOTES: 1. The sensor current I

SENSOR

is consumed if (ADC10ON = 1 and REFON = 1), or (ADC10ON = 1 and INCH = 0Ah and sample signal

is high). When REFON = 1, I

SENSOR

is included in I

REF+

. When REFON = 0, I

SENSOR

applies during conversion of the temperature

sensor input (INCH = 0Ah).

2. The following formula can be used to calculate the temperature sensor output voltage:

Sensor,typ

= TC

Sensor

( 273 + T [°C] ) + V

Offset,sensor

[mV] or

Sensor,typ

= TC

Sensor

T [°C] + V

Sensor

= 0°C) [mV]

3. Results based on characterization and/or production test, not TC

Sensor

or V

Offset,sensor

4. The typical equivalent impedance of the sensor is 51 kΩ. The sample time required includes the sensor-on time t

SENSOR(on)

5. No additional current is needed. The V

MID

is used during sampling.

6. The on time, t

VMID(on)

, is included in the sampling time, t

VMID(sample)

; no additional on time is needed.

MSP430x22x2, MSP430x22x4

MIXED SIGNAL MICROCONTROLLER

SLAS504B − JULY 2006 − REVISED JULY 2007

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

POST OFFICE BOX 1443 • HOUSTON, TEXAS 77251−1443

electrical characteristics over recommended ranges of supply voltage and operating free-air

temperature (unless otherwise noted) (continued)

operational amplifier OA, supply specifications (MSP430x22x4 only)

PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT

Supply voltage range 2.2 3.6 V

Fast Mode 180 290

Supply current (see Note 1)

Medium Mode

2.2 V/3 V

110 190

μA

Supply

current

(see

Note

Slow Mode

2.2

V/3

50 80

μA

PSRR Power supply rejection ratio Non-inverting 2.2 V/3 V 70 dB

NOTES: 1. Corresponding pins configured as OA inputs and outputs respectively.

operational amplifier OA, input/output specifications (MSP430x22x4 only)

PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT

I/P

Input voltage range −0.1 V

−1.2 V

Itlk t

= −40 to +55_C −5 ±0.5 5

Input leakage current

(see Notes 1 and 2)

= +55 to +85_C

2.2 V/3 V

−20 ±5 20

Ikg

(

see

= +85 to +105_C

2.2

V/3

−50 50

Fast Mode 50

Medium Mode

(

I/P

)

= 1 kHz

Voltage noise density I/P

Slow Mode

V(I/P)

kHz

140

nV/√Hz

Voltage noise density, I/P

Fast Mode 30

nV/√Hz

Medium Mode

(

I/P

)

= 10 kHz

Slow Mode

V(I/P)

kHz

Offset voltage, I/P 2.2 V/3 V ±10 mV

Offset temperature drift, I/P see Note 3 2.2 V/3 V ±10 μV/°C

Offset voltage drift

with supply, I/P

0.3 V ≤ V

≤ V

−1.0 V

ΔV

≤ ± 10%, T

= 25°C

2.2 V/3 V ±1.5 mV/V

High level output voltage O/P

Fast Mode, I

SOURCE

≤ −500 μA

2 2 V/3 V

−0.2 V

High-level output voltage, O/P

Slow Mode, I

SOURCE

≤ −150 μA

2.2 V/3 V

−0.1 V

Low level output voltage O/P

Fast Mode, I

SOURCE

≤ +500 μA

2 2 V/3 V

0.2

Low-level output voltage, O/P

Slow Mode, I

SOURCE

≤ +150 μA

2.2 V/3 V

0.1

Load

= 3 kΩ, C

Load

= 50pF,

O/P(OAx)

< 0.2 V

150 250

O/P(OAx)

Output resistance

(see Figure 25 and Note 4)

Load

= 3 kΩ, C

Load

= 50pF,

O/P(OAx)

> V

− 1.2 V

2.2 V/3 V

150 250

Load

= 3 kΩ, C

Load

= 50pF,

0.2 V ≤ V

O/P(OAx)

≤ V

− 0.2 V

0.1 4

CMRR Common-mode rejection ratio Noninverting 2.2 V/3 V 70 dB

NOTES: 1. ESD damage can degrade input current leakage.

2. The input bias current is overridden by the input leakage current.

3. Calculated using the box method

4. Specification valid for voltage-follower OAx configuration

Part #	MSP430F2274TRHAT
Description	MCU 16-bit MSP430 MSP430 RISC32KB Flash 2.5V/3.3V 40-Pin
Category	IC
Availability	In Stock
Qty	214

Qty	Price
1 - 44	$3.57032
45 - 89	$2.84003
90 - 134	$2.67774
135 - 179	$2.48841
180 +	$2.21793

Manufacturer	Available	Qty
Texas Instruments Date Code: 0706	Freelance Stock: 198 Ships Immediately
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MSP430F2274TRHAT

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