General-Purpose Small-Signal Surface-Mount ... - Semiconductors
General-Purpose Small-Signal Surface-Mount ... - Semiconductors
General-Purpose Small-Signal Surface-Mount ... - Semiconductors
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
7.6 Product Lineup (Bipolar Type)<br />
■ Single Circuit: SMV (F type SOT-25, SC-74A)<br />
Function Comparators Op Amps<br />
■ Dual Circuit: SM8 (FU type)<br />
Function Comparators Op Amps<br />
Part<br />
Number<br />
TA75S393F<br />
TA75S01F<br />
TA75S558F<br />
Part<br />
Number<br />
TA75W393FU<br />
TA75W01FU<br />
TA75W558FU<br />
Marking<br />
TA<br />
SA<br />
SB<br />
Marking<br />
5W393<br />
5W01<br />
5W558<br />
Features<br />
Single/dual<br />
power supply;<br />
open-collector output<br />
Single/dual<br />
power supply;<br />
unity gain capability<br />
Dual power supply<br />
Features<br />
Single/dual<br />
power supply;<br />
open-collector output<br />
Single/dual<br />
power supply;<br />
unity gain capability<br />
Dual power supply<br />
Operating<br />
Voltage<br />
2 to 36 V/<br />
±1 to ±18 V<br />
3 to 12 V/<br />
±1.5 to ±6 V<br />
±4 to ±18 V<br />
Operating<br />
Voltage<br />
2 to 36 V/<br />
±1 to ±18 V<br />
3 to 12 V/<br />
±1.5 to ±6 V<br />
±4 to ±18 V<br />
Power<br />
Dissipation<br />
Equivalent<br />
Products<br />
0.4 mA<br />
TA75393<br />
(LM393)<br />
(LM2903)<br />
0.4 mA<br />
TA75358<br />
(LM358)<br />
(LM2804)<br />
2.5 mA<br />
TA75558<br />
(4558)<br />
Power<br />
Dissipation<br />
Equivalent<br />
Products<br />
0.8 mA<br />
TA75393<br />
(LM393)<br />
(LM2903)<br />
0.7 mA<br />
TA75358<br />
(LM358)<br />
(LM2804)<br />
4 mA<br />
TA75558<br />
(4558)<br />
✽<br />
Internal<br />
Connections<br />
VCC OUT<br />
5 4<br />
-<br />
+<br />
VCC OUT<br />
5 4<br />
+ -<br />
✽<br />
Internal<br />
Connections<br />
8<br />
VCC OUT IN (-) IN (+)<br />
A<br />
+<br />
-<br />
7 6 5<br />
-<br />
B<br />
+<br />
8<br />
VCC OUT IN (-) IN (+)<br />
A<br />
+<br />
-<br />
7 6 5<br />
-<br />
B<br />
+<br />
1 2 3<br />
IN(-) VEE IN(+)<br />
1 2 3<br />
IN(+) VEE IN(-)<br />
1 2 3 4<br />
OUT IN (-) IN (+) VEE<br />
1 2 3 4<br />
OUT IN (-) IN (+) VEE<br />
✽<br />
The internal connection diagrams only show the general configurations of the circuits.<br />
Note: The input pin assignments of the single op amps and comparators differ. The pin assignments of the dual op amps and comparators are identical.<br />
Comparisons of CMOS and Bipolar Op Amp Characteristics<br />
Toshiba offers ultra-small op amps in CMOS and bipolar technology, each of which offers particular characteristics.<br />
The CMOS op amp series was specifically designed for low-voltage operation and low power supply current.<br />
Therefore, compared to the bipolar op amps, the CMOS op amps can substantially reduce power dissipation.<br />
The following table compares the principal characteristics of Toshiba’s representative bipolar and CMOS op amps.<br />
Part Number<br />
Characteristic<br />
Operating supply voltage<br />
Power supply current (Typ.)<br />
Input bias current (Typ.)<br />
TC75S54F TC75S55F TA75S01F<br />
1.8 to 7.0 V 1.8 to 7.0 V 3.0 to 12.0 V<br />
100 μA (VDD = 3 V)<br />
80 μA (VDD = 1.8 V)<br />
1 pA (VDD = 3 V)<br />
CMOS Op Amps<br />
10 μA (VDD = 3 V)<br />
8 μA (VDD = 1.8 V)<br />
1 pA (VDD = 3 V)<br />
Bipolar Op Amps<br />
400 μA (VCC = 5 V)<br />
45 nA (VCC = 5 V)<br />
Maximum output voltage<br />
VDD-0.1 V<br />
(VDD = 3 V, RL = 100 kΩ)<br />
VDD-0.1 V<br />
(VDD = 3 V, RL = 1 MΩ)<br />
3.4 V<br />
(VCC = 5 V, RL = 2 kΩ)<br />
Source current (Typ.)<br />
200 μA (VDD = 3 V)<br />
160 μA (VDD = 1.8 V)<br />
20 μA (VDD = 3 V)<br />
16 μA (VDD = 1.8 V)<br />
40 mA (VCC = 5 V)<br />
Sink current (Typ.)<br />
700 μA (VDD = 3 V)<br />
600 μA (VDD = 1.8 V)<br />
450 μA (VDD = 3 V)<br />
400 μA (VDD = 1.8 V)<br />
20 mA (VCC = 5 V)<br />
41
Change language