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TS321_05 데이터시트(Datasheet) 8 Page - STMicroelectronics

부품명 TS321_05
상세내용  Low Power Single Operational Amplifier
PDF  12 Pages
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제조사  STMICROELECTRONICS [STMicroelectronics]
홈페이지  http://www.st.com
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 3 page
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TS321
Absolute Maximum Ratings
3/12
2
Absolute Maximum Ratings
Table 1.
Key parameters and their absolute maximum ratings
Symbol
Parameter
Value
Unit
VCC
Supply Voltage
±16 to 32
V
Vi
Input Voltage
-0.3 to +32
V
Vid
Differential Input Voltage
+32
V
Output Short-circuit Duration - note (1)
1.
Short-circuits from the output to VCC can cause excessive heating if VCC > 15V. The maximum output current is
approximately 40mA independent of the magnitude of VCC.
Infinite
Iin
Input Current - note (2)
2.
This input current only exists when the voltage at any of the input leads is driven negative. It is due to the collector-base
junction of the input PNP transistor becoming forward biased and thereby acting as input diodes clamps. In addition to this
diode action, there is also NPN parasitic action on the IC chip. This transistor action can cause the output voltages of the
Op-amps to go to the VCC voltage level (or to ground for a large overdrive) for the time duration than an input is driven
negative. This is not destructive and normal output will set up again for input voltage higher than -0.3V.
50
mA
Toper
Operating Free Air Temperature Range
-40 to +125
°C
Tstg
Storage Temperature Range
-65 to +150
°C
Rthja
Thermal Resistance Junction to Ambient (3)
SOT23-5
SO8
3.
Short-circuits can cause excessive heating. Destructive dissipation can result from simultaneous short-circuit on all
amplifiers. All values are typical.
250
125
°C/W
Rthjc
Thermal Resistance Junction to Case
SOT23-5
SO8
81
40
°C/W
ESD
HBM: Human Body Model(4)
4.
Human body model, 100pF discharged through a 1.5k
Ω resistor into pin of device.
300
V
MM: Machine Model(5)
5.
Machine model ESD, a 200pF cap is charged to the specified voltage, then discharged directly into the IC with no external
series resistor (internal resistor < 5
Ω), into pin to pin of device.
200
V
 4 page
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Electrical Characteristics
TS321
4/12
3
Electrical Characteristics
Table 2.
Vcc
+ = +5V, V
cc
- = Ground, V
o = 1.4V, Tamb = +25°C (unless otherwise specified)
Symbol
Parameter
Conditions
Min.
Typ.
Max.
Unit
Vio
Input Offset Voltage (1)
Tamb = +25°C
TS321A
Tmin. ≤ Tamb ≤ Tmax.
TS321A
0.5
4
2
5
3
mV
Iio
Input Offset Current
Tamb = +25°C
Tmin. ≤ Tamb ≤ Tmax.
230
50
nA
Iib
Input Bias Current (2)
Tamb = +25°C
Tmin. ≤ Tamb ≤ Tmax
20
150
200
nA
Avd
Large Signal Voltage
Gain
VCC
+ = +15V, R
L = 2kΩ, Vo = 1.4V to 11.4V
Tamb = +25°C
Tmin. ≤ Tamb ≤ Tmax.
50
25
100
V/mV
SVR
Supply Voltage
Rejection Ratio
Rs ≤ 10kΩ
VCC
+ = 5 to 30V
Tamb = +25°C
65
110
dB
ICC
Supply Current, no load
Tamb = +25°C, VCC = +5V
VCC = +30V
Tmin. ≤ Tamb ≤ Tmax., VCC = +5V
VCC = +30
500
600
600
800
900
900
1000
µA
Vicm
Common Mode Input
Voltage Range (3)
VCC = +30V
Tamb = +25°C
Tmin. ≤ Tamb ≤ Tmax.
0
0
VCC -1.5
VCC -2
V
CMR
Common Mode
Rejection Ratio
Rs ≤ 10kΩ
Tamb = +25°C
65
85
dB
Isource
Output Current Source
Vid = +1V
VCC = +15V, Vo = +2V
20
40
mA
Isink
Output Sink Current
Vid = -1V
VCC = +15V, Vo = +2V
VCC = +15V, Vo = +0.2V
10
12
20
50
mA
µA
Io
Short Circuit to Ground
VCC = +15V
40
60
mA
VOH
High Level Output
Voltage
VCC = +30V
Tamb = +25°C, RL = 2kΩ
Tmin. ≤ Tamb ≤ Tmax.
Tamb = +25°C, RL = 10kΩ
Tmin. ≤ Tamb ≤ Tmax.
VCC = +5V, RL = 2kΩ
Tamb = +25°C
Tmin. ≤ Tamb ≤ Tmax.
26
25.5
27
26.5
3.5
3
27
28
V
VOL
Low Level Output
Voltage
RL = 10kΩ
Tamb = +25°C
Tmin. ≤ Tamb ≤ Tmax.
515
20
mV
 5 page
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TS321
Electrical Characteristics
5/12
SR
Slew Rate
VCC = +15V, Vi = 0.5 to 3V, RL = 2kΩ,
CL = 100pF, Tamb = +25°C, unity gain
0.4
V/
µs
GBP
Gain Bandwith Product
VCC = 30V, f = 100kHz, Tamb = +25°C,
Vin = 10mV, RL = 2kΩ, CL = 100pF
0.8
MHz
φm
Phase Margin
60
Degrees
THD
Total Harmonic
Distortion
f = 1kHz, AV = 20dB, RL = 2kΩ, Vo = 2Vpp,
CL = 100pF, Tamb = +25°C, VCC = 30V
0.015
%
en
Equivalent Input Noise
Voltage
f = 1kHz, Rs = 100Ω, VCC = 30V
40
1.
Vo = 1.4V, Rs = 0W, 5V < VCC+ < 30V, 0 < Vic < VCC+ - 1.5V
2.
The direction of the input current is out of the IC. This current is essentially constant, independent of the state of the output
so no loading change exists on the input lines.
3.
The input common-mode voltage of either input signal voltage should not be allowed to go negative by more than 0.3V.
The upper end of the common-mode voltage range is VCC+ - 1.5V, but either or both inputs can go to +32V without
damage.
Table 2.
Vcc
+ = +5V, V
cc
- = Ground, V
o = 1.4V, Tamb = +25°C (unless otherwise specified)
Symbol
Parameter
Conditions
Min.
Typ.
Max.
Unit
nV
Hz
------------
 6 page
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Electrical Characteristics
TS321
6/12
Figure 2.
ICC = f(t)
Figure 3.
AC coupled inverting amplifier
Figure 4.
Non-inverting DC gain
Figure 5.
AC coupled non-inverting amplifier
Figure 6.
DC summing amplifier
~
0
2VPP
R
10kW
L
Co
eo
R
6.2kW
B
R
100kW
f
R1
10kW
CI
eI
VCC
R2
100kW
C1
10mF
R3
100kW
A = -
R
R1
V
f
(as shown A = -10)
V
R1
10kW
R2
1MW
1/4
TS324
10kW
eI
eO +5V
(mV)
0
AV= 1 + R2
R1
(As shown
= 101)
AV
~
0
2VPP
R
10kW
L
Co
eo
R
6.2kW
B
C1
0.1mF
eI
VCC
(as shown A = 11)
V
A = 1 + R2
R1
V
R1
100kW
R2
1MW
CI
R3
1MW
R4
100kW
R5
100kW
C2
10mF
eO
e 4
e 3
e 2
e 1
100kW
100kW
100kW
100kW
100kW
100kW
 7 page
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TS321
Macromodel
7/12
4
Macromodel
Note:
Please consider following remarks before using this macromodel:
All models are a trade-off between accuracy and complexity (i.e. simulation time).
Macromodels are not a substitute to breadboarding; rather, they confirm the validity of a
design approach and help to select surrounding component values.
A macromodel emulates the NOMINAL performance of a TYPICAL device within
SPECIFIED OPERATING CONDITIONS (i.e. temperature, supply voltage, etc.). Thus the
macromodel is often not as exhaustive as the datasheet, its goal is to illustrate the main
parameters of the product.
Data issued from macromodels used outside of its specified conditions (Vcc, Temperature,
etc) or even worse: outside of the device operating conditions (Vcc, Vicm, etc) are not
reliable in any way.
** Standard Linear Ics Macromodels, 1993.
** CONNECTIONS :
* 1 INVERTING INPUT
* 2 NON-INVERTING INPUT
* 3 OUTPUT
* 4 POSITIVE POWER SUPPLY
* 5 NEGATIVE POWER SUPPLY
.SUBCKT TS321 1 2 3 4 5
***************************
.MODEL MDTH D IS=1E-8 KF=3.104131E-15 CJO=10F
* INPUT STAGE
CIP 2 5 1.000000E-12
CIN 1 5 1.000000E-12
EIP 10 5 2 5 1
EIN 16 5 1 5 1
RIP 10 11 2.600000E+01
RIN 15 16 2.600000E+01
RIS 11 15 2.003862E+02
DIP 11 12 MDTH 400E-12
DIN 15 14 MDTH 400E-12
VOFP 12 13 DC 0
VOFN 13 14 DC 0
IPOL 13 5 1.000000E-05
CPS 11 15 3.783376E-09
DINN 17 13 MDTH 400E-12
VIN 17 5 0.000000e+00
DINR 15 18 MDTH 400E-12
VIP 4 18 2.000000E+00
FCP 4 5 VOFP 3.400000E+01
FCN 5 4 VOFN 3.400000E+01
FIBP 2 5 VOFN 2.000000E-03
FIBN 5 1 VOFP 2.000000E-03
* AMPLIFYING STAGE
FIP 5 19 VOFP 3.600000E+02
FIN 5 19 VOFN 3.600000E+02
RG1 19 5 3.652997E+06
RG2 19 4 3.652997E+06
CC 19 5 6.000000E-09
 8 page
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Macromodel
TS321
8/12
DOPM 19 22 MDTH 400E-12
DONM 21 19 MDTH 400E-12
HOPM 22 28 VOUT 7.500000E+03
VIPM 28 4 1.500000E+02
HONM 21 27 VOUT 7.500000E+03
VINM 5 27 1.500000E+02
EOUT 26 23 19 5 1
VOUT 23 5 0
ROUT 26 3 20
COUT 3 5 1.000000E-12
DOP 19 25 MDTH 400E-12
VOP 4 25 2.242230E+00
DON 24 19 MDTH 400E-12
VON 24 5 7.922301E-01
.ENDS
Table 3.
VCC
+ = 3V, V
CC- = 0V, RL, CL connected to VCC/2, Tamb = 25°C (unless otherwise specified)
Symbol
Conditions
Value
Unit
Vio
0mV
Avd
RL = 2kΩ
100
V/mV
ICC
No load, per operator
300
µA
Vicm
0 to +3.5
V
VOH
RL = 2kΩ
+3.5
V
VOL
RL = 2kΩ
5mV
Ios
Vo = 0V
40
mA
GBP
RL = 2kΩ, CL = 100pF
0.8
MHz
SR
RL = 2kΩ, CL = 100pF
0.4
V/
µs
∅mRL = 2kΩ, CL = 100pF
60
Degrees
 9 page
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TS321
Macromodel
9/12
Figure 7.
ICC = f(t)
Figure 8.
AC coupled inverting amplifier
Figure 9.
Non-inverting DC gain
Figure 10. AC coupled non-inverting amplifier
Figure 11. DC summing amplifier
~
0
2VPP
R
10kW
L
Co
eo
R
6.2kW
B
R
100kW
f
R1
10kW
CI
eI
VCC
R2
100kW
C1
10mF
R3
100kW
A = -
R
R1
V
f
(as shown A = -10)
V
R1
10kW
R2
1MW
1/4
TS324
10kW
eI
eO +5V
(mV)
0
AV= 1 + R2
R1
(As shown
= 101)
AV
~
0
2VPP
R
10kW
L
Co
eo
R
6.2kW
B
C1
0.1mF
eI
VCC
(as shown A = 11)
V
A = 1 + R2
R1
V
R1
100kW
R2
1MW
CI
R3
1MW
R4
100kW
R5
100kW
C2
10mF
eO
e 4
e 3
e 2
e 1
100kW
100kW
100kW
100kW
100kW
100kW
 10 page
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Package Mechanical Data
TS321
10/12
5
Package Mechanical Data
In order to meet environmental requirements, ST offers these devices in ECOPACK®
packages. These packages have a Lead-free second level interconnect. The category of
second level interconnect is marked on the package and on the inner box label, in
compliance with JEDEC Standard JESD97. The maximum ratings related to soldering
conditions are also marked on the inner box label. ECOPACK is an ST trademark.
ECOPACK specifications are available at: www.st.com.
5.1
SO-8 Package
DIM.
mm.
inch
MIN.
TYP
MAX.
MIN.
TYP.
MAX.
A
1.35
1.75
0.053
0.069
A1
0.10
0.25
0.04
0.010
A2
1.10
1.65
0.043
0.065
B
0.33
0.51
0.013
0.020
C
0.19
0.25
0.007
0.010
D
4.80
5.00
0.189
0.197
E
3.80
4.00
0.150
0.157
e
1.27
0.050
H
5.80
6.20
0.228
0.244
h
0.25
0.50
0.010
0.020
L
0.40
1.27
0.016
0.050
k
˚ (max.)
ddd
0.1
0.04
SO-8 MECHANICAL DATA
0016023/C
8
 11 page
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TS321
Package Mechanical Data
11/12
5.2
SOT23-5 Package
DIM.
mm.
mils
MIN.
TYP
MAX.
MIN.
TYP.
MAX.
A
0.90
1.45
35.4
57.1
A1
0.00
0.15
0.0
5.9
A2
0.90
1.30
35.4
51.2
b
0.35
0.50
13.7
19.7
C
0.09
0.20
3.5
7.8
D
2.80
3.00
110.2
118.1
E
2.60
3.00
102.3
118.1
E1
1.50
1.75
59.0
68.8
e.95
37.4
e1
1.9
74.8
L
0.35
0.55
13.7
21.6
SOT23-5L MECHANICAL DATA
0
 12 page
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Revision history
TS321
12/12
6
Revision history
Table 4.
Document revision history
Date
Revision
Changes
June 2001
1
– Initial release.
July 2005
2
– PPAP references inserted in the datasheet see table order
codes table
on page 1.
– ESD protection inserted in
Table 1 on page 3
Sept. 2005
3
– Correction of errors in package names and markings in order
codes table
on page 1.
– Minor grammatical and formatting corrections.
Dec. 2005
4
– Missing PPAP references inserted see order codes table
on
page 1.
– Thermal Resistance Junction to Ambient and Thermal
Resistance Junction to Case information added in
Table 1 on
page 3.
– Macromodel updated see
Chapter 4: Macromodel.
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences
of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is
granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are
subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products
are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
The ST logo is a registered trademark of STMicroelectronics.
All other names are the property of their respective owners
© 12 STMicroelectronics - All rights reserved
STMicroelectronics group of companies
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www.st.com




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