8 BIT 4-CHANNEL D/A CONVERTER MB86022
8 bit 4-channel d/a converter mb86022
8 bit 4-channel d/a converter mb86022
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DS04–13201–3aE<br />
DATA SHEET<br />
LINEAR IC CMOS<br />
8 <strong>BIT</strong> 4-<strong>CHANNEL</strong> D/A <strong>CONVERTER</strong><br />
<strong>MB86022</strong><br />
CMOS 8-<strong>BIT</strong> 4-<strong>CHANNEL</strong> D/A <strong>CONVERTER</strong><br />
The Fujitsu <strong>MB86022</strong> is a 8-bit 4-channel Digital to Analog Converter which is<br />
fabricated with Fujitsu CMOS Technology. The data latch and output buffer circuitry<br />
are provided on each channel which can operate independently selected by 2bit<br />
data.<br />
PLASTIC PACKAGE<br />
DIP-24P-M03<br />
• Resolution<br />
• Conversion Rate<br />
• Digital Input Voltage<br />
: 8-Bits (4-channels)<br />
: 200k sps<br />
: TTL Level<br />
PLASTIC PACKAGE<br />
FPT-24P-M02<br />
• Power Supply Voltage : +5V<br />
• Low Power Dissipation : 14mW typ. at +5V<br />
• Each channel operates independently<br />
• On-chip Data Initialization & Power Down Function<br />
• Reference voltage mode selection: On-chip or External generation<br />
• Easy to take interface with micro processor (Parallel Data Input)<br />
D0<br />
D1<br />
D2<br />
D3<br />
D4<br />
D5<br />
D6<br />
D7<br />
C0<br />
C1<br />
___<br />
WR<br />
___<br />
CE<br />
PIN ASSIGNMENT<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
(TOP VIEW)<br />
24<br />
23<br />
22<br />
21<br />
20<br />
19<br />
18<br />
17<br />
16<br />
15<br />
14<br />
13<br />
______<br />
RESET<br />
___<br />
PD<br />
V DD<br />
VR2<br />
VR1<br />
AO0<br />
AO1<br />
AO2<br />
AO3<br />
N.C.<br />
AG<br />
DG<br />
This device contains circuitry to protect the inputs against<br />
damage due to high static voltages or electric fields.<br />
However, it is advised that normal precautions be taken to<br />
avoid application of any voltage higher than maximum rated<br />
voltages to this high impedance circuit.<br />
Quick Pro TM is a trademark of FUJITSU LIMITED<br />
Copyright © 1995 by FUJITSU LIMITED<br />
1
<strong>MB86022</strong><br />
ABSOLUTE MAXIMUM RATINGS (See NOTE)<br />
Parameter<br />
Rating<br />
Symbol Pin Name Unit<br />
Min Typ Max<br />
Power supply voltage<br />
V DD<br />
V DD<br />
GND–0.3<br />
–<br />
7<br />
V<br />
Digital input voltage<br />
V DI<br />
All digital input pins<br />
GND–0.3<br />
–<br />
V DD +0.3<br />
V<br />
Analog input voltage V 1 , V 2<br />
VR1,VR2<br />
GND–0.3<br />
–<br />
V DD +0.3<br />
V<br />
Analog output voltage<br />
V AO<br />
AO0,AO1,AO2,AO3<br />
GND–0.3<br />
–<br />
V DD +0.3<br />
V<br />
Analog output current I AO AO0,AO1,AO2,AO3 –10 – 10<br />
mA<br />
Storage temperature Tstg –40 – 125 °C<br />
NOTE:<br />
Permanent device damage may occur if the above Absolute Maximum Ratings are<br />
exceeded. Functional operation should be restricted to the conditions as detailed in the<br />
operational sections of this data sheet. Exposure to absolute maximum rating conditions for<br />
extended periods may affect device reliability.<br />
2
<strong>MB86022</strong><br />
BLOCK DIAGRAM<br />
D0 to D7<br />
8<br />
8-bit<br />
Data<br />
Latch<br />
8-bit<br />
DAC<br />
–<br />
+<br />
AO3<br />
Buffer Amp.<br />
8-bit<br />
Data<br />
Latch<br />
8-bit<br />
DAC<br />
–<br />
+<br />
AO2<br />
Buffer Amp.<br />
C0,C1<br />
___<br />
WR<br />
___<br />
CE<br />
2<br />
Channel<br />
Select<br />
&<br />
Control<br />
Logic<br />
8-bit<br />
Data<br />
Latch<br />
8-bit<br />
DAC<br />
–<br />
+<br />
Buffer Amp.<br />
AO1<br />
8-bit<br />
Data<br />
Latch<br />
8-bit<br />
DAC<br />
–<br />
+<br />
AO0<br />
______<br />
RESET<br />
___<br />
PD<br />
Buffer Amp.<br />
VR1<br />
VR2<br />
V REF<br />
Circuit<br />
V DD<br />
DG<br />
AG<br />
3
<strong>MB86022</strong><br />
PIN DESCRIPTION<br />
System Pin Number Symbol Descriptions<br />
Power<br />
Supply<br />
22 V DD Power Supply Voltage 5V<br />
13 DG<br />
14 AG<br />
___<br />
23 PD<br />
GND for Digital System<br />
GND for Analog System<br />
Power down control signal pin. The circuit is set power down when this pin goes to “L”.<br />
This pin is pulled up by high resistance. TTL interface.<br />
24<br />
______<br />
RESET<br />
Reset input signal pin. The data at all channels is initialized when this pin goes to “L”.<br />
At this time, the D/A output is set at D(A)=128.<br />
This pin is pulled up by high resistance. TTL interface.<br />
12<br />
11<br />
___<br />
CE<br />
___<br />
WR<br />
Chip enable signal pin. The data can be written when this pin goes to “L”. This pin is<br />
pulled up by high resistance. TTL interface.<br />
Data write pin. The data from D0 to D7 is written when the rising edge (L H) of this pin.<br />
TTL interface.<br />
9<br />
C0<br />
Channel selection signal pin. Channels are selected by following table. TTL<br />
interface.<br />
Digital<br />
Input<br />
10<br />
C1<br />
C1 C0 Channel<br />
L L 0<br />
L H 1<br />
H L 2<br />
H H 3<br />
1<br />
2<br />
3<br />
D0<br />
D1<br />
D2<br />
Data input signal pin. The digital data is read by the channel which is selected by C0 and<br />
C1 pins when the rising edge of WR (L H), and analog output is shown correspond to<br />
that digital code. D0 is LSB and D7 is MSB. Code is set at 10000000 when reset. TTL<br />
interface.<br />
4<br />
D3<br />
5<br />
D4<br />
6<br />
D5<br />
7<br />
D6<br />
8<br />
D7<br />
Analog<br />
Input<br />
20 VR 1<br />
Reference voltage (H level) input pin. V DD is given by internal reference voltage circuitry<br />
to this pin when internal reference voltage mode. In this case, the capacitor between<br />
this pin and AG pin is required to limit noise generation. In case of external reference<br />
voltage mode, the reference voltage should be given from this pin.<br />
21 VR 2<br />
Middle point of reference voltage input pin.<br />
___ 1<br />
Reference voltage (H level) input pin. 2 V DD is given by internal reference voltage circuitry<br />
to this pin when internal reference voltage mode. In this case, the capacitor between<br />
this pin and AG pin is required to limit noise generation. In case of external reference<br />
voltage mode, the reference voltage should be given from this pin.<br />
4
<strong>MB86022</strong><br />
(Continued)<br />
System Pin Number Symbol Descriptions<br />
16 AO3 Analog output pin of channel 3. This pin is set to high–impedance state at Power Down.<br />
Analog 17 AO2 Analog output pin of channel 2. This pin is set to high–impedance state at Power Down.<br />
Output<br />
18 AO1 Analog output pin of channel 1. This pin is set to high–impedance state at Power Down.<br />
19 AO0 Analog output pin of channel 0. This pin is set to high–impedance state at Power Down.<br />
– 15 N.C. No connection pin<br />
5
<strong>MB86022</strong><br />
RECOMMENDED OPERATING CONDITIONS<br />
Parameter Symbol Pin Name<br />
Value<br />
Min Typ Max<br />
Unit<br />
Power supply voltage<br />
V DD<br />
V DD<br />
4.75 5.0 5.25<br />
V<br />
Digital input voltage<br />
V DI<br />
All digital input pins<br />
0 –<br />
V DD<br />
V<br />
Analog input voltage<br />
V 1<br />
V 2<br />
VR1<br />
VR2<br />
1.2 3.75 3.8<br />
______ V 1 +1.2<br />
2.5 ______ V 1 +3.8<br />
2<br />
2<br />
V<br />
V<br />
Analog output load<br />
resistance<br />
Analog output load<br />
capacitance<br />
R AL<br />
C AL<br />
AO0, AO1, AO2, AO3<br />
20 – –<br />
– – 50<br />
kΩ<br />
pF<br />
Operating temperature<br />
Ta<br />
–20 – 70<br />
°C<br />
6
<strong>MB86022</strong><br />
ELECTRICAL CHARACTERISTICS<br />
Parameter Symbol Pin Name<br />
I DD1<br />
Power supply current<br />
V DD<br />
I DD2<br />
Conditions<br />
___<br />
PD=“H”<br />
No<br />
load ___<br />
PD=“L”<br />
(V DD =4.75V to 5.25V, Ta=–20°C to 70°C)<br />
Value<br />
Unit<br />
Min Typ Max<br />
– 2.8 5.5 mA<br />
– – 0.5 mA<br />
Digital<br />
input<br />
“L” Voltage<br />
“H” Voltage<br />
“L” Current<br />
“H” Current<br />
V IL<br />
V IH<br />
I IL<br />
I IH<br />
All digital input pins<br />
___<br />
D0 to D7, WR<br />
V DI =GND<br />
V DI =V DD<br />
0 – 0.8<br />
2.2 – V DD<br />
–10 – 10<br />
–10 – 10<br />
V<br />
V<br />
µA<br />
µA<br />
Pull up current<br />
___<br />
WR “H” Width<br />
___<br />
WR “L” Width<br />
Digital input “L” width<br />
DATA Set up time 1<br />
DATA Set up time 2<br />
___<br />
CE Set up time<br />
DATA Hold time 1<br />
DATA Hold time 2<br />
___<br />
CE Hold time<br />
I PLU<br />
t WHWR<br />
t WLWR<br />
t WLRP<br />
t SD1<br />
t SD2<br />
t SCE<br />
t HD1<br />
t HD2<br />
t HCE<br />
___ ___ ______<br />
PD, CE, RESET<br />
___<br />
WR<br />
___<br />
WR<br />
______ ___<br />
RESET, PD<br />
___<br />
D0 to D7, WR<br />
___<br />
C0, C1, WR<br />
___ ___<br />
CE, WR<br />
___<br />
D0 to D7, WR<br />
___<br />
C0, C1, WR<br />
___ ___<br />
CE, WR<br />
V DI =GND<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
Ref. to timing chart<br />
–100 –50 –25<br />
200 – –<br />
200 – –<br />
500 – –<br />
100 – –<br />
100 – –<br />
0 – –<br />
50 – –<br />
50 – –<br />
0 – –<br />
µA<br />
ns<br />
ns<br />
ns<br />
ns<br />
ns<br />
ns<br />
ns<br />
ns<br />
ns<br />
7
<strong>MB86022</strong><br />
(Continued)<br />
(V DD =4.75V to 5.25V, Ta=–20°C to 70°C)<br />
Value<br />
Parameter Symbol Pin Name<br />
Conditions<br />
Min Typ Max<br />
Unit<br />
Rising time 1 t r1<br />
___<br />
WR Ref. to timing chart 0 – 50 ns<br />
Falling time 1 t f1<br />
___<br />
WR Ref. to timing chart<br />
0 – 50 ns<br />
Rising time 2 t r2<br />
D0 ___ to D7, ______ C0,<br />
C1, CE, ___ RESET, Ref. to timing chart 0 – 50 ns<br />
PD<br />
Falling time 2 t f2<br />
D0 ___ to D7, ______ C0,<br />
C1, CE, ___ RESET, Ref. to timing chart<br />
0 – 50 ns<br />
PD<br />
Resolution Res<br />
– 8 – bits<br />
Analog output<br />
Min. voltage<br />
Analog output<br />
Max. voltage<br />
Analog input<br />
resistance<br />
V AOL1<br />
V AOL2<br />
V AOH1<br />
V AOH2<br />
R I<br />
AO0,<br />
AO1,<br />
AO2,<br />
AO3<br />
VR 1 ,<br />
VR 2<br />
Input<br />
code<br />
D(A)=<br />
0<br />
Input<br />
code<br />
D(A)=<br />
255<br />
No external VR input<br />
VR1=open<br />
(Typ.) –0.1<br />
____ V DD (Typ.) +0.1 V<br />
VR2=open<br />
4<br />
External VR input<br />
VR1=V 1<br />
(Typ.) –0.1 2xV 2 –V 1<br />
VR2=V (Typ.) +0.1 V<br />
2<br />
No external VR input<br />
VR1=open<br />
(Typ.) –0.1 ____ 383 x VDD (Typ.) +0.1 V<br />
VR2=open<br />
512<br />
External VR input<br />
VR1=V 1<br />
(Typ.) –0.1 V 1 –_____<br />
V 1 –V 2 (Typ.) +0.1 V<br />
VR2=V 2 128<br />
30 50 200<br />
kΩ<br />
Linearity error LE AO0, No external VR input<br />
–1.5 – 1.5<br />
VR1=open<br />
Differential<br />
AO1,<br />
D VR2=open<br />
linearity error<br />
LE<br />
–1 – 1<br />
AO2,<br />
Full scale change<br />
Setting time t S AO3<br />
(Ref. to timing chart)<br />
– – 5<br />
LSB<br />
LSB<br />
µs<br />
8
<strong>MB86022</strong><br />
FUNCTION DESCRIPTION<br />
TRUTH TABLE<br />
___ ______ ___ ___<br />
PD RESET CE WR<br />
C0, C1<br />
D0 to D7<br />
Function<br />
0<br />
x<br />
x<br />
x<br />
–<br />
–<br />
Power down<br />
1 0 x x<br />
1 1 1 x<br />
– – Initialization<br />
– No data input No analog output change<br />
1 1 0<br />
Channel selectiion<br />
Data input<br />
Analog output change<br />
Fig. 1 – DATA SET TIMING DIAGRAM<br />
D0 to D7<br />
C0, C1<br />
___<br />
CE<br />
___<br />
WR<br />
Data is read.<br />
Analog output is changed.<br />
Data is not read.<br />
Analog output is not changed.<br />
9
<strong>MB86022</strong><br />
SETTING OF ANALOG OUTPUT VOLTAGE<br />
Data<br />
Analog Output Voltage<br />
D(A)<br />
D7<br />
D6<br />
D5<br />
D4<br />
D3<br />
D2<br />
D1<br />
D0<br />
VR1=Open<br />
VR2=Open<br />
(No external VR input)<br />
VR1=V 1<br />
VR2=Open<br />
(External VR1 input)<br />
VR1=V 1<br />
VR2=V 2<br />
(External VR input)<br />
255<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
____ 383 x VDD<br />
512<br />
_________ 2xV 1 –V DD<br />
x 127 +<br />
____ V DD<br />
256<br />
2<br />
______ V 1 –V 2<br />
128 x 127 + V 2<br />
254 1 1 1 1 1 1 1 0<br />
____ 382<br />
512<br />
x V DD<br />
_________ 2xV 1 –V DD<br />
x 126 + ____ V DD<br />
256<br />
2<br />
______ V 1 –V 2<br />
128 x 126 + V 2<br />
253 1 1 1 1 1 1 0 1<br />
⋅<br />
⋅<br />
____ 381<br />
512<br />
x V DD<br />
____ V DD<br />
512 x (D(A)–128) + ____ V DD<br />
2<br />
_________ 2xV 1 –V DD<br />
x 125 + ____ V DD<br />
256<br />
2<br />
_________ 2xV 1 –V DD<br />
x (D(A) –128)<br />
256<br />
____ V<br />
+ DD<br />
2<br />
______ V 1 –V 2<br />
128 x 125 + V 2<br />
______ V 1 –V 2<br />
128 x (D(A)–128) + V 2<br />
129 1 0 0 0 0 0 0 1<br />
____ 257<br />
512<br />
x V DD<br />
_________ 2xV 1 –V DD + ____ V DD<br />
256 2<br />
______ V 1 –V 2<br />
128<br />
128 1 0 0 0 0 0 0 0<br />
127 0 1 1 1 1 1 1 1<br />
____ 255<br />
512<br />
____ V DD<br />
2<br />
x V DD<br />
________ 2xV 1 –V DD<br />
256<br />
____ V DD<br />
2<br />
x (–1) + ____ V DD<br />
2<br />
V 2<br />
______ V 1 –V 2<br />
x (–1)<br />
128<br />
+ V 2<br />
+ V 2<br />
126 0 1 1 1 1 1 1 0<br />
____ 254<br />
512<br />
x V DD<br />
________ 2xV 1 –V DD<br />
x (–2) + ____ V DD<br />
256<br />
2<br />
______ V 1 –V 2<br />
x (–2) + V<br />
128<br />
2<br />
⋅<br />
⋅<br />
⋅<br />
⋅<br />
⋅<br />
2 0 0 0 0 0 0 1 0<br />
____ 130<br />
512<br />
x V DD<br />
2xV ________ 1 –V DD<br />
256<br />
x (–126) + ____ V DD<br />
2<br />
______ V 1 –V 2<br />
x (–126) + V 2<br />
128<br />
1 0 0 0 0 0 0 0 1<br />
____ 129<br />
512<br />
x V DD<br />
2xV ________ 1 –V DD<br />
256<br />
x (–127) + ____ V DD<br />
2<br />
______ V 1 –V 2<br />
128<br />
x (–127) + V 2<br />
0 0 0 0 0 0 0 0 0<br />
____ V DD<br />
4<br />
V DD –V 1<br />
–(V 1 –V 2 ) + V 2<br />
1LSB<br />
____ V DD<br />
512<br />
2xV ________ 1 –V DD<br />
256<br />
______ V 1 –V 2<br />
128<br />
* Code is set at ”10000000” when reset mode.<br />
10
<strong>MB86022</strong><br />
ANALOG OUTPUT VOLTAGE RANGE<br />
Fig. 2 – ON-CHIP REFERENCE VOLTAGE MODE (NO EXTERNAL VR INPUT)<br />
__<br />
4<br />
V DD<br />
1LSB<br />
____ V DD<br />
512<br />
3 x VDD<br />
____<br />
V AOH<br />
____ 383 xVDD<br />
512<br />
____ V DD<br />
2<br />
D/A Output range<br />
V AOL<br />
V DD<br />
4<br />
AG<br />
(VR1=V 1 , VR2=1/2xV DD )<br />
Fig. 3 – EXTERNAL REFERENCE VOLTAGE MODE<br />
V DD<br />
1LSB<br />
__________<br />
2 x V 1 –V DD<br />
256<br />
(VR1) V 1<br />
____ V DD<br />
2<br />
V AOH<br />
__________<br />
2 x V 1 –V DD<br />
x 127 + ____ V DD<br />
256<br />
2<br />
D/A Output range<br />
V AOL (V DD –V 1 )<br />
AG<br />
(VR1=V 1 , VR2=V 2 )<br />
Fig. 4 – EXTERNAL REFERENCE VOLTAGE MODE<br />
V DD<br />
1LSB<br />
______ V 1 –V 2<br />
128<br />
(VR1) V 1<br />
V AOH<br />
____ 127 x (V1 –V 2 ) + V 2<br />
128<br />
(VR2) V 2<br />
D/A Output range<br />
V AOL – (V 1 –V 2 ) + V 2<br />
AG<br />
11
<strong>MB86022</strong><br />
TYPICAL APPLICATION CIRCUIT FOR EACH MODE<br />
Fig. 5 – ON-CHIP REFERENCE VOLTAGE MODE<br />
D0 to D7<br />
C0<br />
___ C1<br />
___ WR<br />
CE<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
24<br />
23<br />
22<br />
21<br />
20<br />
19<br />
18<br />
17<br />
16<br />
15<br />
14<br />
13<br />
N.C.<br />
______<br />
___ RESET<br />
PD<br />
+5V (V DD )<br />
+<br />
– 1µF<br />
AO0 to 3<br />
+<br />
– 1µF<br />
Fig. 6 – EXTERNAL REFERENCE VOLTAGE MODE<br />
D0 to D7<br />
C0<br />
___ C1<br />
___ WR<br />
CE<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
24<br />
23<br />
22<br />
21<br />
20<br />
19<br />
18<br />
17<br />
16<br />
15<br />
14<br />
13<br />
N.C.<br />
______<br />
___ RESET<br />
PD<br />
+5V (V DD )<br />
V 1<br />
+<br />
– 1µF<br />
AO0 to 3<br />
(VR1=V 1 , VR2=1/2xV DD )<br />
Fig. 7 – EXTERNAL REFERENCE VOLTAGE MODE<br />
D0 to D7<br />
C0<br />
___ C1<br />
___ WR<br />
CE<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
24<br />
23<br />
22<br />
21<br />
20<br />
19<br />
18<br />
17<br />
16<br />
15<br />
14<br />
13<br />
N.C.<br />
______<br />
___ RESET<br />
PD<br />
+5V (V DD )<br />
V 2<br />
V 1<br />
AO0 to 3<br />
(VR1=V 1 , VR2=V 2 )<br />
12
<strong>MB86022</strong><br />
TIMING DIAGRAM<br />
___<br />
WR<br />
V IH<br />
V IL<br />
t r1<br />
t f1<br />
t WHWR t WLWR<br />
t SD1 t HD1<br />
D0 to D7<br />
V IH<br />
V IL<br />
t r2<br />
t f2<br />
C0, C1<br />
V IH<br />
V IL<br />
t r2<br />
t SD2<br />
t HD2<br />
t f2<br />
___<br />
CE<br />
V IH<br />
V IL<br />
t f2<br />
t SCE t HCE<br />
t r2 ±1LSB<br />
AO0 to AO3<br />
t S<br />
±1LSB<br />
______ ___<br />
RESET, PD<br />
V IH<br />
V IL<br />
t WLRP<br />
13
<strong>MB86022</strong><br />
PACKAGE DIMENSIONS<br />
24-LEAD PLASTIC DUAL IN-LINE PACKAGE<br />
(CASE No.: DIP-24P-M03)<br />
15°MAX<br />
INDEX-1<br />
.260±.010<br />
(6.60±0.25)<br />
.300(7.62)<br />
TYP<br />
INDEX-2<br />
1.170 +.008<br />
–.012 (29.72 +0.20<br />
–0.30<br />
)<br />
.010±.002<br />
(0.25±0.05)<br />
.050(1.27)<br />
MAX<br />
.034 +.020<br />
–0<br />
+0.50<br />
(0.86<br />
–0<br />
)<br />
.172(4.36)MAX<br />
.118(3.00)MIN<br />
.100(2.54)<br />
TYP<br />
.050 +.020<br />
–0<br />
+0.50<br />
(1.27<br />
–0<br />
)<br />
.018±.003<br />
(0.46±0.08)<br />
.020(0.51)MIN<br />
©1991 FUJITSU LIMITED D24017S-3C<br />
Dimensions in<br />
inches (millimeters)<br />
14
<strong>MB86022</strong><br />
24-LEAD PLASTIC FLAT PACKAGE<br />
(CASE No.: FPT-24P-M02)<br />
+.010 +0.25<br />
.600 (15.24 )<br />
–.008 –0.20<br />
.110(2.80) MAX<br />
(MOUNTING HEIGHT)<br />
.002(0.05) MIN<br />
(STAND OFF HEIGHT)<br />
INDEX<br />
.402±.016<br />
(10.20±0.40)<br />
.299±.012<br />
(7.60±0.30)<br />
.362±.012<br />
(9.20±0.30)<br />
.050(1.27)<br />
TYP<br />
.018±.004<br />
(0.45±0.10)<br />
∅.005(0.13) M<br />
.020±.008<br />
(0.50±0.20)<br />
.006 +.002 +0.05<br />
–.001<br />
(0.15 –0.02<br />
)<br />
Details of “A” part<br />
“A”<br />
.008(0.20)<br />
©1991 FUJITSU LIMITED F24008S-4C<br />
.004(0.10)<br />
.550(13.97) REF<br />
.024(0.60)<br />
.007(0.18)<br />
MAX<br />
.027(0.68)<br />
MAX<br />
Dimensions in<br />
inches (millimeters)<br />
All Rights Reserved.<br />
Circuit diagrams utilizing Fujitsu products are included as a means of illustrating typical<br />
semiconductor applications. Complete Information sufficient for construction purposes<br />
is not necessarily given.<br />
The Information contained in this document has been carefully checked and is believed<br />
to be reliable. However, Fujitsu assumes no responsibility for inaccuracies.<br />
The Information contained in this document does not convey any license under the<br />
copyrights, patent rights or trademarks claimed and owned by Fujitsu.<br />
Fujitsu reserves the right to change products or specifications without notice.<br />
No part of this publication may be copied or reproduced in any form or by any means, or<br />
transferred to any third party without prior written consent of Fujitsu.<br />
15
<strong>MB86022</strong><br />
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FUJITSU LIMITED<br />
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16