Datasheet

ManualsBrandsTEXAS INSTRUMENTS ManualsMicrocontrollers, Microprocessors & QuartzesEmbedded microcontroller SSOP 48 16-Bit 8 MHz I/O number 32

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MSP430F42x0

MIXED SIGNAL MICROCONTROLLER

SLAS455D − MARCH 2005 − REVISED APRIL 2007

25

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

electrical characteristics over recommended operating free-air temperature (unless otherwise

noted)

DCO

PARAMETER TEST CONDITIONS V

CC

MIN TYP MAX UNIT

f

(DCOCLK)

N

(DCO)

=01Eh, FN_8=FN_4=FN_3=FN_2=0, D = 2; DCOPLUS= 0,

f

Crystal

= 32.768 kHz

2.2 V/3 V 1 MHz

f

FN 8 FN 4 FN 3 FN 2 0 ; DCOPLUS 1

2.2 V 0.3 0.65 1.25

MHz

f

(DCO=2)

FN_8=FN_4=FN_3=FN_2=0 ; DCOPLUS = 1

3 V 0.3 0.7 1.3

MHz

f

FN 8 FN 4 FN 3 FN 2 0; DCOPLUS 1

2.2 V 2.5 5.6 10.5

MHz

f

(DCO=27)

FN_8=FN_4=FN_3=FN_2=0; DCOPLUS = 1

3 V 2.7 6.1 11.3

MHz

f

FN 8 FN 4 FN 3 0 FN 2 1; DCOPLUS 1

2.2 V 0.7 1.3 2.3

MHz

f

(DCO=2)

FN_8=FN_4=FN_3=0, FN_2=1; DCOPLUS = 1

3 V 0.8 1.5 2.5

MHz

f

FN 8 FN 4 FN 3 0 FN 2 1; DCOPLUS 1

2.2 V 5.7 10.8 18

MHz

f

(DCO=27)

FN_8=FN_4=FN_3=0, FN_2=1; DCOPLUS = 1

3 V 6.5 12.1 20

MHz

f

FN 8 FN 4 0 FN 3 1 FN 2 x; DCOPLUS 1

2.2 V 1.2 2 3

MHz

f

(DCO=2)

FN_8=FN_4=0, FN_3= 1, FN_2=x; DCOPLUS = 1

3 V 1.3 2.2 3.5

MHz

f

FN 8 FN 4 0 FN 3 1 FN 2 x; DCOPLUS 1

2.2 V 9 15.5 25

MHz

f

(DCO=27)

FN_8=FN_4=0, FN_3= 1, FN_2=x; DCOPLUS = 1

3 V 10.3 17.9 28.5

MHz

f

FN 8 0 FN 4 1 FN 3 FN 2 x; DCOPLUS 1

2.2 V 1.8 2.8 4.2

MHz

f

(DCO=2)

FN_8=0, FN_4= 1, FN_3= FN_2=x; DCOPLUS = 1

3 V 2.1 3.4 5.2

MHz

f

FN 8 0 FN 4 1 FN 3 FN 2 x; DCOPLUS 1

2.2 V 13.5 21.5 33

MHz

f

(DCO=27)

FN_8=0, FN_4=1, FN_3= FN_2=x; DCOPLUS = 1

3 V 16 26.6 41

MHz

f

FN 8 1 FN 4 FN 3 FN 2 x; DCOPLUS 1

2.2 V 2.8 4.2 6.2

MHz

f

(DCO=2)

FN_8=1, FN_4=FN_3=FN_2=x; DCOPLUS = 1

3 V 4.2 6.3 9.2

MHz

f

FN 8 1 FN 4 FN 3 FN 2 x; DCOPLUS 1

2.2 V 21 32 46

MHz

f

(DCO=27)

FN_8=1,FN_4=FN_3=FN_2=x; DCOPLUS = 1

3 V 30 46 70

MHz

S

Step size between adjacent DCO taps:

1 < TAP ≤ 20 1.06 1.11

S

n

Step

size

between

adjacent

DCO

taps:

S

n

= f

DCO(Tap

n+1)

/ f

DCO(Tap

n)

(see Figure 10 for taps 21 to 27)

TAP = 27 1.07 1.17

D

Temperature drift, N

(

D

CO)

= 01Eh, FN_8=FN_4=FN_3=FN_2=0

2.2 V –0.2 –0.3 –0.4

%/_C

D

t

Temperature

drift

,

N

(DCO)

=

01Eh

,

FN

_

8=FN

_

4=FN

_

3=FN

_

2=0

D = 2; DCOPLUS = 0, (see Note 2)

3 V –0.2 –0.3 –0.4

%/_C

D

V

Drift with V

CC

variation, N

(DCO)

= 01Eh, FN_8=FN_4=FN_3=FN_2=0

D = 2; DCOPLUS = 0

0 5 15 %/V

T

A

− °CV

CC

− V

f

(DCO)

f

(DCO20

5

C)

f

(DCO)

f

(DCO3V)

1.8 3.02.4 3.6

1.0

20 6040 85

1.0

0−20−400

Figure 9. DCO Frequency vs Supply Voltage V

CC

and vs Ambient Temperature