analog_system_lab_pro_manual
.pdf
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OP AMP TYPE II - A - FULL |
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HD41 |
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R35 |
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R35 |
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1K |
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HD45 |
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R34 |
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R34 |
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2K2 |
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HD44 |
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R33 |
C33 |
HD43 |
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R33 |
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10K |
0.01uF |
C33 |
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HD42 |
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R32 |
C32 |
HD47 |
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R32 |
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4K7 |
0.1uF |
C32 |
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HD40 |
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R31 |
C31 |
HD46 |
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R31 |
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1K |
1uF |
C31 |
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VCC+10 |
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C30 |
HD37 |
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0.1uF |
+10V |
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HD38 |
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2 |
OPAMP2A |
HD52 |
HD6 |
OP2A IN- |
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3 |
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HD36 |
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OP2A OUT |
OP2 |
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OP2 |
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OP2A IN+ |
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C40 |
HD39 |
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0.1uF |
-10V |
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VCC-10 |
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HD54 |
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HD35 |
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R36 |
C34 |
HD33 |
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GND |
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R36 |
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1K |
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C34 |
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1uF |
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HD31 |
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R37 |
C35 |
HD30 |
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R37 |
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10K |
0.1uF |
C35 |
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HD32 |
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R38 |
C36 |
HD34 |
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R38 |
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2K2 |
0.1uF |
C36 |
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Figure D.3: OP-Amp 2A can be used in both inverting and non-inverting configuration
Analog System Lab Kit PRO
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OP AMP TYPE II - B - FULL |
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R45 |
HD63 |
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1K |
R45 |
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R44 |
HD65 |
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2K2 |
R44 |
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HD64 |
C43 |
R43 |
HD57 |
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C43 |
0.01uF |
10K |
R43 |
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HD66 |
C42 |
R42 |
HD56 |
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C42 |
0.1uF |
4K7 |
R42 |
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HD58 |
C41 |
R41 |
HD55 |
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C41 |
1uF |
1K |
R41 |
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VCC+10 |
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HD183 |
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+10V |
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D52 |
HD62 |
OPAMP2B |
6 |
HD53 |
OP2B IN- |
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7 |
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HD51 |
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OUT |
OP2B OUT |
OP2 |
OP2B IN+ |
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HD180 |
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-10V |
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HD54 |
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VCC-10 |
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HD60 |
C44 |
R46 |
HD61 |
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GND |
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C44 |
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1K |
R46 |
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1uF |
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HD48 |
C45 |
R47 |
HD59 |
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C45 |
0.1uF |
10K |
R47 |
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HD50 |
C46 |
R48 |
HD49 |
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C46 |
0.1uF |
2K2 |
R48 |
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Figure D.4: OP-Amp 2B can be used in both inverting and non-inverting configuration
page 91
appendix D
appendix D
OP AMP TYPE III - A - BASIC |
ANALOG MULTIPLIER - SET I |
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VCC+10 |
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C59 |
HD67 |
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0.1uF |
+10V |
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HD70 |
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2 |
OPAMP3A |
HD72 |
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OP3A IN- |
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1 |
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3 |
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HD69 |
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OP3A OUT |
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OP3 |
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OP3A IN+ |
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C58 |
HD68 |
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0.1uF |
-10V |
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VCC-10 |
HD75 |
VCC+10 |
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HD90 |
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VCC+10 |
GND |
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+10V |
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HD179 |
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C71 |
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Figure D.5: OP-Amp 3A can be used in unity+10V gain configuration |
100nF |
HD86 |
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or any other custom configuration |
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GND |
OP AMP TYPE III - B - BASIC |
VCC-10 |
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HD85 |
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-10V |
VCC-10 |
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C72 |
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HD75 |
100nF |
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VCC+10 |
GND |
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HD179 |
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+10V |
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HD73 |
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6 |
OPAMP3B |
HD74 |
OP3B IN- |
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5 |
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HD71 |
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OP3B OUT |
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OP3 |
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OP3B IN+ |
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HD182 |
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-10V |
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VCC-10 |
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VCC+10 |
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HD84 |
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U1 |
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X1 |
1 |
X1 |
+VS |
14 |
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HD83 |
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X2 |
2 |
X2 |
NC |
13 |
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HD89 |
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3 |
NC |
OUT |
12 |
OUT |
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HD82 |
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HD88 |
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SF |
4 |
SF |
MPY634 Z1 |
11 |
Z1 |
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5 |
NC |
Z2 |
10 |
HD87 |
Z2 |
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HD81 |
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Y1 |
6 |
Y1 |
NC |
9 |
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HD80 |
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Y2 |
7 |
Y2 |
-VS |
8 |
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VCC-10 |
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Figure D.6: OP-Amp 3B can be used in unity gain configuration |
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or any other custom configuration |
Figure D.7: Connections for analog multiplier MPY634 - SET I |
page 92 |
Analog System Lab Kit PRO |
ANALOG MULTIPLIER - SET II |
ANALOG MULTIPLIER - SET III |
appendix D
VCC+10 |
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VCC+10 |
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VCC+10 |
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VCC+10 |
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HD106 |
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U2 |
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HD112 |
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U3 |
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+10V |
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HD96 |
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+10V |
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HD105 |
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X1 |
1 |
X1 |
+VS |
14 |
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X1 |
1 |
X1 |
+VS |
14 |
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C81 |
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C91 |
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HD95 |
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HD104 |
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2 |
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13 |
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2 |
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13 |
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100nF |
HD93 |
X2 |
X2 |
NC |
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100nF |
HD108 |
X2 |
X2 |
NC |
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HD103 |
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HD111 |
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GND |
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3 |
NC |
OUT |
12 |
OUT |
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GND |
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3 |
NC |
OUT |
12 |
OUT |
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HD94 |
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HD101 |
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HD102 |
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HD110 |
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SF |
4 |
SF |
MPY634 Z1 |
11 |
Z1 |
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SF |
4 |
SF |
MPY634 Z1 |
11 |
Z1 |
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VCC-10 |
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5 |
NC |
Z2 |
10 |
HD100 |
Z2 |
VCC-10 |
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5 |
NC |
Z2 |
10 |
HD109 |
Z2 |
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HD97 |
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HD92 |
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HD107 |
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HD99 |
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Y1 |
6 |
Y1 |
NC |
9 |
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Y1 |
6 |
Y1 |
NC |
9 |
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-10V |
HD91 |
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-10V |
HD98 |
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Y2 |
7 |
Y2 |
-VS |
8 |
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Y2 |
7 |
Y2 |
-VS |
8 |
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C82 |
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C92 |
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100nF |
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100nF |
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VCC-10 |
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VCC-10 |
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Figure D.8: Connections for analog multiplier MPY634 - SET II |
Figure D.9: Connections for analog multiplier MPY634 - SET III |
Analog System Lab Kit PRO |
page 93 |
appendix D
DAC I
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VCC+5 |
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VCC+5 |
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LDO |
OUT |
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R51 |
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DC/DC |
VOUT |
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HD137 |
10K |
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JP3 |
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CS A |
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CS |
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T1 |
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C51 |
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100nF |
DBA11 DBA10 DBA9 DBA8 DBA7 DBA6 DBA5 DBA4 DBA3 DBA2 DBA1 DBA0 |
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HD144 |
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DBA11 DBA10 DBA9 DBA8 DBA7 DBA6 DBA5 DBA4 DBA3 DBA2 DBA1 DBA0 |
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+ 1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 11 12 |
VCC+5 |
_ |
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R52 |
SW1 |
R53 |
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220R |
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220R |
DA1
IOUT1 |
HD153 |
1 |
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HD151 |
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IOUT2 |
2 |
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3 |
DBA11 4
DBA10 5
DBA9 6
DBA8 7
DBA7 8
DBA6 9
DBA5 10
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IOUT1 |
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RFB |
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IOUT2 |
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VREF |
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GND |
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VDD |
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DB11 |
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R/W |
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DB10 |
DAC7821 |
CS |
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DB9 |
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DB0 |
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DB8 |
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DB1 |
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DB7 |
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DB2 |
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DB6 |
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DB3 |
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DB5 |
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DB4 |
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VCC+5 |
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VCC+5 |
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20 |
HD171 |
RFB |
C52 |
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HD169 |
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19 |
VREF |
100nF |
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18 |
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17 |
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HD184 |
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16 |
CS A |
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R/W |
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15 |
DBA0 |
R54 |
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10k |
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14 |
DBA1 |
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13 |
DBA2 |
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12 |
DBA3 |
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11 |
DBA4 |
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VCC+10 |
HD176 |
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+10V |
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HD136 |
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VCC-10 |
GND |
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HD175 |
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-10V |
Figure D.10: connections for analog-to-digital converter DAC7821 - DAC I
page 94
Analog System Lab Kit PRO 
DAC II
VCC+5
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R61 |
HD138 |
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10K |
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CS B |
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CS |
T2 |
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C61 |
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100nF |
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DBB11 DBB10 DBB9 DBB8 DBB7 DBB6 DBB5 DBB4 DBB3 DBB2 DBB1 DBB0 |
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HD145 |
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DBB11 DBB10 DBB9 DBB8 DBB7 DBB6 DBB5 DBB4 DBB3 DBB2 DBB1 DBB0 |
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+ 1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 11 12 |
VCC+5 |
_ |
SW2 |
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R62 |
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R63 |
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220R |
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220R |
DA2
HD154 |
1 |
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IOUT1 |
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HD152 |
2 |
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IOUT2 |
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3 |
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DBB11 |
4 |
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DBB10 |
5 |
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DBB9 |
6 |
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DBB8 |
7 |
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DBB7 |
8 |
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DBB6 |
9 |
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DBB5 |
10 |
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IOUT1 |
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RFB |
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IOUT2 |
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VREF |
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GND |
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VDD |
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DB11 |
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R/W |
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DB10 |
DAC7821 |
CS |
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DB9 |
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DB0 |
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DB8 |
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DB1 |
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DB7 |
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DB2 |
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DB6 |
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DB3 |
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DB5 |
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DB4 |
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VCC+5 |
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VCC+5 |
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20 |
HD172 |
RFB |
C62 |
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HD170 |
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19 |
VREF |
100nF |
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18 |
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17 |
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HD185 |
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16 |
CS B |
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R/W |
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15 |
DBB0 |
R64 |
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10k |
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14 |
DBB1 |
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13 |
DBB2 |
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12 |
DBB3 |
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11 |
DBB4 |
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VCC+10 |
HD178 |
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+10V |
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HD135 |
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VCC-10 |
GND |
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HD177 |
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|
-10V |
appendix D
Analog System Lab Kit PRO
Figure D.11: connections for analog-to-digital converter DAC7821 - DAC II
page 95
appendix D
DC/DC CONVERTER
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HD142 |
VCC+10 |
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TP1 |
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HD122 |
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Vin |
JP9 |
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15V |
CN5 |
DC/DC IN |
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VIN |
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6 – |
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C201 |
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C203 |
VIN |
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HD120 |
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TP3 |
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220uF |
R201 |
220nF |
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VIN |
TP2 |
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100K |
HD121 |
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RC |
1 |
U4 |
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RC |
TPS40200 |
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4 |
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FB |
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SS |
2 |
SS |
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COMP |
3 |
COMP |
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C213 |
R210 |
C214 |
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470pF |
1M |
470nF |
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R205 |
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100K |
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C207 |
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33pF |
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C206 |
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4.7nF |
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FB |
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JP8 |
3.3V |
5V |
R211 |
R209 |
41K2 |
27K4 |
C204 220nF
VDD 
8 ISNS 
7 DRV 
6 GND 
5
R207
100K
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R202 |
C205 |
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R203 |
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0.03 |
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470pF |
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1K |
SRC |
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4 |
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ISNS |
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Q101 |
DRV |
R204 |
GATE |
3 |
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FDC5614P |
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0E |
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1 2 5 6 |
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C208 |
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TP4 |
100nF |
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DRAIN |
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HD126 |
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C202 |
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D201 |
68pF |
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TP6 |
MBRS340 |
R206 |
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HD124 |
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25.5E |
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TP8 |
TP9 |
HD123 |
HD125 |
R208
49.9
TP5
HD128
L201 |
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VOUT |
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33uH |
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R3 |
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C209 |
C210 |
C211 |
C212 |
4K7 |
TP7 |
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330uF |
330uF |
10uF |
10uF |
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HD127 |
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LD3 |
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HD143 |
VOUT |
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CN6 |
or 5V |
2.5A |
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VOUT |
VOUT3.3V |
@0.125 – |
Figure D.12: Connections for TPS40200 Evaluation step-down DC/DC converter
page 96
Analog System Lab Kit PRO 
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LDO REGULATOR |
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HD118 |
VOUT |
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4K7 |
247K |
1 |
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8 |
C103 |
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CN4 |
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5VOUTV |
@250mA |
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OUT |
OUT |
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VOUT |
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R4 |
R101 |
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IC1 |
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GND |
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SENSE |
TPS7250 |
OUT |
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10uF |
VCC+10 |
HD117 |
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2 |
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7 |
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VIN |
V10-5.5 |
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LD4 |
PG |
OUT |
JP6 |
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CN3 |
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3 |
GND |
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IN |
6 |
IN |
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REG IN |
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VIN |
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4 |
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5 |
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EN |
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IN |
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C101 |
C102 |
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GND |
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1uF |
100nF |
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VIN |
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HD116 |
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GND |
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ENABLE |
JP7 |
OFF |
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ON |
Figure D.13: Connections for TP7250 low-dropout linear voltage regulator
TRANSISTOR SOCKET (MOSFET) TRANSISTOR SOCKET (BJT)
appendix D
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HD115B |
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DRAIN |
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D |
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HD114B |
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2 |
MOSFET |
SOCKET |
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G |
1 |
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GATE |
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3 |
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S |
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HD113B |
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SOURCE |
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Figure D.14: MOSFET socket
Analog System Lab Kit PRO
|
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HD141B |
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COLLECTOR |
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C |
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HD140B |
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2 |
TRANSISTOR SOCKET |
B |
1 |
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BASE |
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3 |
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E |
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HD139B |
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EMITTER |
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Figure D.15: Bipolar Junction Transistor socket
page 97
appendix D
DIODES |
TRIMMERS |
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VCC+10 |
VCC-10 |
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HD76B |
D2 |
HD78B |
HD131 |
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HD133 |
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+10V |
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-10V |
D2A |
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D2K |
HD132 |
P1 |
P2 |
HD134 |
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S1 |
1K |
1K |
S2 |
HD77B |
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HD79B |
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D1 |
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HD129 |
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HD130 |
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D1A |
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D1K |
GND |
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GND |
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Figure D.16: Diode sockets Figure D.17: Trimmer-potentiometers
POWER SUPPLY GENERAL PURPOSE AREA
CN1 |
VCC+10 |
+10V |
CN2 |
VCC-10
-10V
R1 VCC+10 
6K8
HD29 |
VCC+10 |
+10V |
HD28
GND
HD27 VCC-10 
-10V
LD1
R2 |
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VCC-10 |
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6K8 |
LD2 |
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Figure D.18: Main power supply |
Figure D.19: General purpose area (2.54mm / 100mills pad spacing) |
page 98 |
Analog System Lab Kit PRO |
Bibliography
List of references and related articles for further reading
Analog System Lab Kit PRO |
page 99 |
Bibliography 1 of 2
[01]ADCPro (TM) - Analog to Digital Conversion Evaluation Software. Free. Available from http://focus.ti.com/docs/toolsw/folders/print/adcpro.html
[02]F. Archibald. Automatic Level Controller for Speech Signals Using PID Controllers. Application Notes from Texas Instruments. Available from http://focus.ti.com/lit/wp/spraaj4/spraaj4.pdf
[03]High-Performance Analog. Available from www.ti.com/analog
[04]Wide Bandwidth Precision Analog Multiplier MPY634, Burr Brown Products from Texas Instruments, Available from http://focus.ti.com/lit/ds/sbfs017a/sbfs017a.pdf
[05]B. Carter and T. Brown. Handbook Of Operational Amplifier Applications. Texas Instruments Application Report. 2001.
Available from http://focus.ti.com/lit/an/sboa092a/sboa092a.pdf
[06]B. Carter. Op Amp and Comparators - Don’t Confuse Them! Texas Instruments Application Report, 2001.
Available from http://tinyurl.com/carteropamp-comp
[07]B. Carter. Filter Design in Thirty Seconds. Application Report from Texas Instruments. Downloadable from http://focus.ti.com/lit/an/sloa093/sloa093.pdf
[08]B. Carter and R. Mancini. OPAMPS For Everyone. Elsevier Science Publishers, 2009.
[09]FilterPro (TM) - Active Filter Design Application. Free software. Available from http://tinyurl.com/lterpro-download
[10]Thomas Kuehl and Faisal Ali. Active Filter Synthesis Made Easy With FilterPro V3.0. Tutorial presented in TI Technology Days 2010 (May), USA. Available from http://www.ti.com/ww/en/techdays/2010/index.shtml.
[11]J. Molina. DESIGN A 60Hz NOTCH FILTER WITH THE UAF42. Application note from Burr-Brown (Texas Instruments), 2000. Available from http://focus.ti.com/lit/an/sbfa012/sbfa012.pdf
[12]J. Molina. DIGITALLY PROGRAMMABLE, TIME-CONTINUOUS ACTIVE FILTER, 2000.
Application note from Burr-Brown (Texas Instruments), http://focus.ti.com/lit/an/sbfa005/sbfa005.pdf
[13]George S. Moschytz. From Printed Circuit Boards to Systems-on-a-chip. IEEE Circuits and Systems magazine, Vol 10, Number 2, 2010.
[14]Phase-locked loop. Wikipedia entry. http://en.wikipedia.org/wiki/Phaselocked loop
[15]R. Palmer. Design Considerations for Class-D Audio Amplifiers. Application Note from Texas Instruments.
Available from http://focus.ti.com/lit/an/sloa031/sloa031.pdf
[16]K.R.K. Rao. Electronics for Analog Signal Processing - Part II. OPAmp in Negative Feedback.
Recorded lecture available through NPTEL. http://tinyurl.com/krkrao-nptel-lec7 and http://tinyurl.com/krkrao-nptel-lec8
page 100 |
Analog System Lab Kit PRO |