TSV623 (ST Microelectronics)
(TSV622 - TSV625) Operational Amplifiers

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TSV622, TSV623, TSV624, TSV625
Rail-to-rail input/output 29 µA 420 kHz CMOS operational amplifiers
Features
Rail-to-rail input and output
Low power consumption: 29 µA typ, 36 µA max
Low supply voltage: 1.5 – 5.5 V
Gain bandwidth product: 420 kHz typ
Unity gain stability
Low power shutdown mode: 5 nA typ
Good accuracy: 800 µV max (A version)
Low input bias current: 1 pA typ
Micropackages: MiniSO-8, SOT23-8,
MiniSO-10, TSSOP14, TSSOP16
EMI hardened operational amplifiers
High tolerance to ESD: 4 kV HBM
Extended temperature range: -40 to +125° C
Applications
Battery-powered applications
Portable devices
Signal conditioning
Active filtering
Medical instrumentation
Description
The TSV622, TSV623, TSV624 and TSV625 dual
and quad operational amplifiers offer low voltage,
low power operation and rail-to-rail input and
output.
The TSV62x series features an excellent
speed/power consumption ratio, offering a
420 kHz gain bandwidth product while consuming
only 29 µA at a 5 V supply voltage. These op-
amps are unity gain stable for capacitive loads up
to 100 pF. They also feature an ultra-low input
bias current and low input offset voltage.
SOT23-8
SO-8
MiniSO-8
TSSOP-14
TSSOP-16
TSV623 (dual) and TSV625 (quad) have two
shutdown pins in order to reduce power
consumption.
These features make the TSV62x family ideal for
sensor interfaces, battery-supplied and portable
applications, as well as active filtering.
May 2009
Doc ID 15689 Rev 1
1/25
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TSV623 (ST Microelectronics)
(TSV622 - TSV625) Operational Amplifiers

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Contents
TSV62x
1 Package pin connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
2 Absolute maximum ratings and operating conditions . . . . . . . . . . . . . 4
3 Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
4 Application information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4.1 Operating voltages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4.2 Rail-to-rail input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4.3 Rail-to-rail output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4.4 Optimization of DC and AC parameters . . . . . . . . . . . . . . . . . . . . . . . . . . 14
4.5 Shutdown function (TSV623, TSV625) . . . . . . . . . . . . . . . . . . . . . . . . . . 14
4.6 Driving resistive and capacitive loads . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.7 PCB layouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.8 Macromodel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
5 Package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
5.1 SOT23-8 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
5.2 SO-8 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
5.3 MiniSO-8 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
5.4 MiniSO-10 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
5.5 TSSOP14 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
5.6 TSSOP16 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
6 Ordering information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
7 Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
2/25 Doc ID 15689 Rev 1


TSV623 (ST Microelectronics)
(TSV622 - TSV625) Operational Amplifiers

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1 Package pin connections
Package pin connections
Figure 1. Pin connections for each package (top view)
Out1 1
In1- 2
In1+ 3
VCC- 4
_
+
8 VCC+
7 Out2
_ 6 In2-
+ 5 In2+
TSV622IDT/IST/ILT
SO8/Mini-SO8/SOT23-8
Out1 1
In1- 2
In1+ 3
VCC+ 4
In2+ 5
In2- 6
Out2 7
_
+
+
_
14 Out4
_ 13 In4-
+ 12 In4+
11 VCC-
+ 10 In3+
_ 9 In3-
8 Out3
TSV624IPT
TSSOP14
Out1 1
In1- 2
In1+ 3
VCC- 4
_
+
8 VCC+
7 Out2
_ 6 In2-
+ 5 In2+
TSV623IST
MiniSO-10
Out1 1
In1- 2
In1+ 3
VCC+ 4
In2+ 5
In2- 6
Out2 7
SHDN1/2 8
_
+
+
_
16 Out4
_ 15 In4-
+ 14 In4+
13 VCC-
+ 12 In3+
_ 11 In3-
10 Out3
9 SHDN3/4
TSV625IPT
TSSOP16
Doc ID 15689 Rev 1
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TSV623 (ST Microelectronics)
(TSV622 - TSV625) Operational Amplifiers

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TSV62x
2 Absolute maximum ratings and operating conditions
Table 1.
Symbol
VCC
Vid
Vin
Iin
SHDN
Tstg
Rthja
Tj
ESD
Absolute maximum ratings (AMR)
Parameter
Supply voltage(1)
Differential input voltage (2)
Input voltage (3)
Input current (4)
Shutdown voltage(3)
Storage temperature
Thermal resistance junction to ambient(5)(6)
SOT23-8
MiniSO-8
SO-8
Mini-SO10
TSSOP14
TSSOP16
Maximum junction temperature
HBM: human body model(7)
MM: machine model(8)
CDM: charged device model(9)
Latch-up immunity
Value
6
±VCC
VCC- - 0.2 to VCC++ 0.2
10
VCC- - 0.2 to VCC++ 0.2
-65 to +150
Unit
V
V
V
mA
V
°C
105
190
125 °C/W
113
100
95
150 °C
4 kV
200 V
1.5 kV
200 mA
1. All voltage values, except differential voltages are with respect to network ground terminal.
2. Differential voltages are the non-inverting input terminal with respect to the inverting input terminal.
3. VCC-Vin must not exceed 6 V, Vin must not exceed 6V.
4. Input current must be limited by a resistor in series with the inputs.
5. Short-circuits can cause excessive heating and destructive dissipation.
6. Rth are typical values.
7. Human body model: 100 pF discharged through a 1.5 kΩ resistor between two pins of the device, done for
all couples of pin combinations with other pins floating.
8. Machine model: a 200 pF capacitor is charged to the specified voltage, then discharged directly between
two pins of the device with no external series resistor (internal resistor < 5 Ω), done for all couples of pin
combinations with other pins floating.
9. Charged device model: all pins plus package are charged together to the specified voltage and then
discharged directly to ground.
Table 2. Operating conditions
Symbol
Parameter
Value
Unit
VCC
Vicm
Toper
Supply voltage
Common mode input voltage range
Operating free air temperature range
1.5 to 5.5
VCC- - 0.1 to VCC+ + 0.1
-40 to +125
V
V
°C
4/25 Doc ID 15689 Rev 1


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(TSV622 - TSV625) Operational Amplifiers

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Electrical characteristics
3 Electrical characteristics
Table 3.
Symbol
Electrical characteristics at VCC+ = +1.8 V with VCC- = 0 V, Vicm = VCC/2, Tamb = 25° C,
and RL connected to VCC/2 (unless otherwise specified)
Parameter
Conditions
Min. Typ. Max. Unit
DC performance
Vio Offset voltage
DVio
Iio
Input offset voltage drift
Input offset current
(Vout = VCC/2)
Iib
Input bias current
(Vout = VCC/2)
CMR
Common mode rejection
ratio 20 log (ΔVic/ΔVio)
Avd Large signal voltage gain
VOH High level output voltage
TSV62x
TSV62xA
TSV623AIST - MiniSO10
TSV62x -Tmin < Top < Tmax
TSV62xA - Tmin < Top < Tmax
TSV623AIST - Tmin < Top < Tmax
Tmin < Top < Tmax
Tmin < Top < Tmax
0 V to 1.8 V, Vout = 0.9 V
Tmin < Top < Tmax
RL= 10 kΩ, Vout= 0.5 V to 1.3 V
Tmin < Top < Tmax
RL = 10 kΩ
Tmin < Top < Tmax
4
0.8 mV
1
6
2
2.2
2 μV/°C
1 10(1)
pA
1 100
1 10(1)
pA
pA
1 100
pA
53 74
dB
51 dB
78 95
dB
73 dB
35 5
50
mV
VOL Low level output voltage
RL = 10 kΩ
Tmin < Top < Tmax
4 35
50
mV
Isink
Iout
Isource
Vout = 1.8 V
Tmin < Top < Tmax
Vout = 0 V
Tmin < Top < Tmax
No load, Vout=VCC/2
ICC Supply current (per operator)
Tmin < Top < Tmax
AC performance
6 12
4
mA
6 10
4
25 31
33
µA
µA
GBP Gain bandwidth product
Fu Unity gain frequency
φm Phase margin
Gm Gain margin
SR Slew rate
1. Guaranteed by design.
RL = 10 kΩ, CL = 100 pF, f = 100 kHz 275 340
RL = 10 kΩ, CL = 100 pF,
280
RL = 10 kΩ, CL = 100 pF
41
RL = 10 kΩ, CL = 100 pF
8
RL = 10 kΩ, CL = 100 pF, Av=1
0.1 0.155
kHz
kHz
Degrees
dB
V/μs
Doc ID 15689 Rev 1
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(TSV622 - TSV625) Operational Amplifiers

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TSV62x
Table 4.
Symbol
Shutdown characteristics VCC = 1.8 V (TSV623, TSV625)
Parameter
Conditions
Min.
DC performance
ICC
ton
toff
VIH
VIL
IIH
IIL
IOLeak
Supply current in shutdown
mode (all operators)
Amplifier turn-on time
Amplifier turn-off time
SHDN logic high
SHDN = VCC-
Tmin < Top < 85° C
Tmin < Top < 125° C
RL = 5 k, Vout = VCC- to VCC- + 0.2 V
RL = 2 k, Vout = VCC+ - 0.5 V to
VCC+ - 0.7 V
1.35
SHDN logic low
SHDN current high
SHDN = VCC+
SHDN current low
SHDN = VCC-
Output leakage in shutdown SHDN = VCC-
mode
Tmin < Top < 125° C
Typ.
2.5
200
20
10
10
50
1
Max.
50
200
1.5
0.6
Unit
nA
nA
µA
ns
ns
V
V
pA
pA
pA
nA
6/25 Doc ID 15689 Rev 1


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Electrical characteristics
Table 5.
Symbol
VCC+ = +3.3 V, VCC- = 0 V, Vicm = VCC/2, Tamb = 25° C, RL connected to VCC/2
(unless otherwise specified)
Parameter
Conditions
Min. Typ. Max.
Unit
DC performance
Vio Offset voltage
DVio Input offset voltage drift
Input offset current
Iio
TSV62x
TSV62xA
TSV623AIST - MiniSO10
TSV62x -Tmin < Top < Tmax
TSV62xA - Tmin < Top < Tmax
TSV623AIST - Tmin < Top < Tmax
Tmin < Top < Tmax
Iib Input bias current
CMR
Common mode rejection
ratio 20 log (ΔVic/ΔVio)
Avd Large signal voltage gain
Tmin < Top < Tmax
0 V to 3.3 V, Vout = 1.65 V
Tmin < Top < Tmax
RL=10 kΩ, Vout= 0.5 V to 2.8 V
Tmin < Top < Tmax
VOH High level output voltage
RL = 10 kΩ
Tmin < Top < Tmax
VOL Low level output voltage
RL = 10 kΩ
Tmin < Top < Tmax
Isink
Iout
Isource
Vo = 5 V
Tmin < Top < Tmax
Vo = 0 V
Tmin < Top < Tmax
No load, Vout= 2.5 V
ICC Supply current (per operator)
Tmin < Top < Tmax
AC performance
GBP Gain bandwidth product
Fu Unity gain frequency
φm Phase margin
Gm Gain margin
SR Slew rate
1. Guaranteed by design.
RL = 10 kΩ, CL = 100 pF, f = 100 kHz
RL = 10 kΩ, CL = 100 pF
RL = 10 kΩ, CL = 100 pF
RL = 10 kΩ, CL = 100 pF
RL = 10 kΩ, CL = 100 pF, AV = 1
57
53
81
76
35
50
23
20
23
20
310
0.11
4
0.8
1
mV
6
2
2.2
2 μV/°C
1 10(1)
pA
1 100
1 10(1)
pA
pA
1 100
pA
79 dB
dB
98 dB
dB
5
mV
4 35
50
45
mV
mA
38
26 33
35
mA
µA
µA
380
310
41
8
0.175
kHz
kHz
Degrees
dB
V/μs
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TSV62x
Table 6.
Symbol
VCC+ = +5 V, VCC- = 0 V, Vicm = VCC/2, Tamb = 25° C, RL connected to VCC/2
(unless otherwise specified)
Parameter
Conditions
Min. Typ. Max.
DC performance
Vio Offset voltage
DVio Input offset voltage drift
TSV62x
TSV62xA
TSV623AIST - MiniSO10
TSV62x - Tmin < Top < Tmax
TSV62xA - Tmin < Top < Tmax
TSV62xA - Tmin < Top < Tmax
Iio Input offset current
Tmin < Top < Tmax
Iib Input bias current
Tmin < Top < Tmax
CMR
Common mode rejection
ratio 20 log (ΔVic/ΔVio)
0 V to 5 V, Vout = 2.5 V
Tmin < Top < Tmax
Avd Large signal voltage gain
RL=10 kΩ, Vout = 0.5 V to 4.5 V
Tmin < Top < Tmax
SVR
Supply voltage rejection ratio VCC = 1.8 to 5 V
20 log (ΔVCC/ΔVio)
Tmin < Top < Tmax
VRF = 100 mVrms, f = 400 MHz
EMI rejection ratio
VRF = 100 mVrms, f = 900 MHz
EMIRR
EMIRR = -20 log (VRFpeak/ΔVio) VRF = 100 mVrms, f = 1800 MHz
VRF = 100 mVrms, f = 2400 MHz
VOH High level output voltage
RL = 10 kΩ
Tmin < Top < Tmax
VOL Low level output voltage
RL = 10 kΩ
Tmin < Top < Tmax
Isink
Iout
Isource
Vo = 5 V
Tmin < Top < Tmax
Vo = 0 V
Tmin < Top < Tmax
No load, Vout = 2.5 V
ICC Supply current (per operator)
Tmin < Top < Tmax
AC performance
GBP
Fu
Gain bandwidth product
Unity gain frequency
RL = 10 kΩ, CL = 100 pF, f = 100 kHz
RL = 10 kΩ, CL = 100 pF
60
55
85
80
75
73
35
50
40
35
40
35
350
4
0.8
1
6
2
2.2
2
1 10(1)
1 100
1 10(1)
1 100
80
98
102
61
85
92
83
7
6 35
50
69
74
29 36
38
420
360
Unit
mV
μV/°C
pA
pA
pA
pA
dB
dB
dB
dB
mV
mV
mA
mA
µA
µA
kHz
kHz
8/25 Doc ID 15689 Rev 1


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Electrical characteristics
Table 6.
VCC+ = +5 V, VCC- = 0 V, Vicm = VCC/2, Tamb = 25° C, RL connected to VCC/2
(unless otherwise specified) (continued)
Symbol
Parameter
Conditions
Min. Typ. Max. Unit
φm Phase margin
Gm Gain margin
SR Slew rate
en
Equivalent input noise
voltage
THD+en
Total harmonic distortion +
noise
RL = 10 kΩ, CL = 100 pF
RL = 10 kΩ, CL = 100 pF
RL = 10 kΩ, CL = 100 pF, AV = 1
f = 1 kHz
Av = 1, f = 1 kHz, RL= 100 kΩ,
Vicm = Vcc/2, Vout = 2 Vpp
40
8
0.12 0.19
77
0.002
Degrees
dB
V/μs
---n---V-----
Hz
%
1. Guaranteed by design.
Table 7.
Symbol
Shutdown characteristics at VCC = 5 V (TSV623, TSV625)
Parameter
Conditions
Min. Typ. Max.
Unit
DC performance
ICC
ton
toff
VIH
VIL
IIH
IIL
IOLeak
Supply current in shutdown
mode (all operators)
Amplifier turn-on time
Amplifier turn-off time
SHDN logic high
SHDN = VIL
Tmin < Top < 85° C
Tmin < Top < 125° C
RL = 5 kΩ, Vout = VCC- to VCC- + 0.2 V
RL = 5 kΩ, Vout = VCC+ - 0.5 V to
VCC + - 0.7 V
SHDN logic low
SHDN current high
SHDN = VCC+
SHDN current low
SHDN = VCC-
Output leakage in shutdown SHDN = VCC-
mode
Tmin < Top < 125° C
2
5 50
200
1.5
200
20
0.8
10
10
50
1
nA
nA
µA
ns
ns
V
V
pA
pA
pA
nA
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TSV62x
Figure 2. Supply current vs. supply voltage Figure 3. Output current vs. output voltage at
at Vicm = VCC/2
VCC = 1.5 V
Figure 4. Output current vs. output voltage at Figure 5. Voltage gain and phase vs.
VCC = 5 V
frequency at Vcc = 1.5 V
Ω
Figure 6. Voltage gain and phase vs.
frequency at VCC = 5 V
Figure 7. Phase margin vs. output current at
VCC = 1.5 V and VCC = 5 V
Ω
10/25
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Figure 8. Positive slew rate vs. time
Electrical characteristics
Figure 9. Negative slew rate vs. time
Figure 10. Positive slew rate vs. supply
voltage
Figure 11. Negative slew rate vs. supply
voltage
Ω
Figure 12. Noise vs. frequency
Vicm=4.5V
Vicm=2.5V
Vcc=5V
T=25 C
Frequency (Hz)
Figure 13. Distortion + noise vs. frequency
1
Vcc=1.5V
Rl=10kΩ
Vcc=1.5V
Rl=100kΩ
0.1
0.01
1E-3
10
Ω
Ω
100
1000
10000
100000
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TSV62x
Figure 14. Distortion + noise vs. output
voltage
Vcc=1.5V
Rl=10kohms Vcc=1.5V
Rl=100kohms
f=1kHz
Gain=1
BW=22kHz
Vicm=Vcc/2
Vcc=5.5V
Rl=10kohms
Vcc=5.5V
Rl=100kohms
Output Voltage (Vpp)
Figure 15. EMIRR vs. frequency at VCC = 5 V,
T = 25° C
120
100
80
60
40
20
0
101 102 103
12/25
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4 Application information
Application information
4.1 Operating voltages
The TSV62x can operate from 1.5 to 5.5 V. Their parameters are fully specified for 1.8-, 3.3-
and 5-V power supplies. However, the parameters are very stable in the full VCC range and
several characterization curves show the TSV62x characteristics at 1.5 V. Additionally, the
main specifications are guaranteed in extended temperature ranges from -40° C to +125° C.
4.2 Rail-to-rail input
The TSV62x are built with two complementary PMOS and NMOS input differential pairs.
The devices have a rail-to-rail input, and the input common mode range is extended from
VCC- - 0.1 V to VCC+ + 0.1 V. The transition between the two pairs appears at VCC+ - 0.7 V.
In the transition region, the performance of CMRR, PSRR, Vio (Figure 16 and Figure 17)
and THD is slightly degraded.
Figure 16. Input offset voltage vs input
common mode at VCC = 1.5 V
Figure 17. Input offset voltage vs input
common mode at VCC = 5 V
The devices are guaranteed without phase reversal.
4.3 Rail-to-rail output
The operational amplifier’s output level can go close to the rails: 35 mV maximum above and
below the rail when connected to a 10 kΩ resistive load to VCC/2.
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TSV62x
4.4 Optimization of DC and AC parameters
These devices use an innovative approach to reduce the spread of the main DC and AC
parameters. An internal adjustment achieves a very narrow spread of current consumption
(29 µA typical, min/max at ±17%). Parameters linked to the current consumption value, such
as GBP, SR and AVd benefit from this narrow dispersion. All parts present a similar speed
and the same behavior in terms of stability. In addition, the minimum values of GBP and SR
are guaranteed (GBP = 350 kHz min, SR = 0.12 V/µs min).
4.5 Shutdown function (TSV623, TSV625)
The operational amplifier is enabled when the SHDN pin is pulled high. To disable the
amplifier, the SHDN must be pulled down to VCC-. When in shutdown mode, the amplifier
output is in a high impedance state. The SHDN pin must never be left floating but tied to
VCC+ or VCC-. The turn-on and turn-off times are calculated for an output variation of
±200 mV (Figure 18 and Figure 19 show the test configurations).
Figure 18. Test configuration for turn-on time Figure 19. Test configuration for turn-off time
(Vout pulled down)
(Vout pulled down)
+Vcc
GND
+Vcc
GND
Vcc-0.5V
+DUT
-
Vcc-0.5V
+DUT
-
GND
GND
Figure 20. Turn-on time, VCC = 5 V,
Vout pulled down, T = 25° C
Shutdown pulse
Vout
Figure 21. Turn-off time, VCC = 5 V,
Vout pulled down, T = 25° C
Vcc = 5V
T = 25°C
Vout
Vcc = 5V
T = 25 C
R connected to GND
L
Time( s)
Shutdown pulse
Time( s)
14/25
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TSV623 (ST Microelectronics)
(TSV622 - TSV625) Operational Amplifiers

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Application information
4.6 Driving resistive and capacitive loads
These products are micro-power, low-voltage operational amplifiers optimized to drive rather
large resistive loads, above 5 kΩ. For lower resistive loads, the THD level may significantly
increase.
In a follower configuration, these operational amplifiers can drive capacitive loads up to
100 pF with no oscillations. When driving larger capacitive loads, adding a small resistor in
series at the output can improve the stability of the device (see Figure 22 for recommended
in-series resistor values). Once the value of the in-series resistor has been selected, the
stability of the circuit should be tested on bench and simulated with the simulation model.
Figure 22. In-series resistor vs. capacitive load
4.7 PCB layouts
For correct operation, it is advised to add 10 nF decoupling capacitors as close as possible
to the power supply pins.
4.8 Macromodel
Two accurate macromodels (with or without shutdown feature) of TSV62x are available on
STMicroelectronics’ web site at www.st.com. This model is a trade-off between accuracy
and complexity (that is, time simulation) of the TSV62x operational amplifiers. It emulates
the nominal performances of a typical device within the specified operating conditions
mentioned in the datasheet. It helps to validate a design approach and to select the right
operational amplifier, but it does not replace on-board measurements.
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5 Package information
TSV62x
In order to meet environmental requirements, ST offers these devices in different grades of
ECOPACK® packages, depending on their level of environmental compliance. ECOPACK®
specifications, grade definitions and product status are available at: www.st.com.
ECOPACK® is an ST trademark.
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5.1 SOT23-8 package information
Figure 23. SOT23-8 package mechanical drawing
Package information
Table 8.
Ref.
A
A1
A2
b
c
D
E
E1
e
e1
L
<
SOT23-8 package mechanical data
Dimensions
Millimeters
Min. Typ. Max. Min.
1.45
0.15
0.90 1.30 0.035
0.22 0.38 0.009
0.08 0.22 0.003
2.80 3 0.110
2.60 3 0.102
1.50 1.75 0.059
0.65
1.95
0.30 0.60 0.012
0° 8°
Inches
Typ.
0.026
0.077
Max.
0.057
0.006
0.051
0.015
0.009
0.118
0.118
0.069
0.024
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5.2 SO-8 package information
Figure 24. SO-8 package mechanical drawing
TSV62x
18/25
Table 9.
Ref.
A
A1
A2
b
c
D
E
E1
e
h
L
L1
k
ccc
SO-8 package mechanical data
Dimensions
Millimeters
Min. Typ. Max. Min.
1.75
0.10 0.25 0.004
1.25 0.049
0.28 0.48 0.011
0.17 0.23 0.007
4.80 4.90 5.00 0.189
5.80 6.00 6.20 0.228
3.80 3.90 4.00 0.150
1.27
0.25 0.50 0.010
0.40 1.27 0.016
1.04
0 8° 1°
0.10
Doc ID 15689 Rev 1
Inches
Typ.
0.193
0.236
0.154
0.050
0.040
Max.
0.069
0.010
0.019
0.010
0.197
0.244
0.157
0.020
0.050
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5.3 MiniSO-8 package information
Figure 25. MiniSO-8 package mechanical drawing
Package information
Table 10. MiniSO-8 package mechanical data
Dimensions
Ref. Millimeters
Min. Typ. Max. Min.
A 1.1
A1 0
0.15 0
A2 0.75 0.85 0.95 0.030
b 0.22
0.40 0.009
c 0.08
0.23 0.003
D 2.80 3.00 3.20 0.11
E 4.65 4.90 5.15 0.183
E1 2.80 3.00 3.10 0.11
e 0.65
L 0.40 0.60 0.80 0.016
L1 0.95
L2 0.25
k 0°
8° 0°
ccc 0.10
Doc ID 15689 Rev 1
Inches
Typ.
0.033
0.118
0.193
0.118
0.026
0.024
0.037
0.010
Max.
0.043
0.006
0.037
0.016
0.009
0.126
0.203
0.122
0.031
0.004
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5.4 MiniSO-10 package information
Figure 26. MiniSO-10 package mechanical drawing
TSV62x
Table 11. MiniSO-10 package mechanical data
Dimensions
Ref. Millimeters
Min. Typ. Max. Min.
A 1.10
A1 0.05 0.10 0.15 0.002
A2 0.78 0.86 0.94 0.031
b 0.25 0.33 0.40 0.010
c 0.15 0.23 0.30 0.006
D 2.90 3.00 3.10 0.114
E 4.75 4.90 5.05 0.187
E1 2.90 3.00 3.10 0.114
e 0.50
L 0.40 0.55 0.70 0.016
L1 0.95
k 0° 3° 6° 0°
aaa 0.10
Inches
Typ.
0.004
0.034
0.013
0.009
0.118
0.193
0.118
0.020
0.022
0.037
Max.
0.043
0.006
0.037
0.016
0.012
0.122
0.199
0.122
0.028
0.004
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5.5 TSSOP14 package information
Figure 27. TSSOP14 package mechanical drawing
Package information
Table 12. TSSOP14 package mechanical data
Dimensions
Ref. Millimeters
Min. Typ. Max. Min.
A 1.20
A1 0.05
0.15 0.002
A2 0.80 1.00 1.05 0.031
b 0.19
0.30 0.007
c 0.09
0.20 0.004
D 4.90 5.00 5.10 0.193
E 6.20 6.40 6.60 0.244
E1 4.30 4.40 4.50 0.169
e 0.65
L 0.45 0.60 0.75 0.018
L1 1.00
k 0°
8° 0°
aaa 0.10
Inches
Typ.
0.004
0.039
0.197
0.252
0.173
0.0256
0.024
0.039
Max.
0.047
0.006
0.041
0.012
0.0089
0.201
0.260
0.176
0.030
0.004
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5.6 TSSOP16 package information
Figure 28. TSSOP16 package mechanical drawing
TSV62x
b
Table 13. TSSOP16 package mechanical data
Dimensions
Ref. Millimeters
Min. Typ. Max. Min.
A 1.20
A1 0.05
0.15 0.002
A2 0.80 1.00 1.05 0.031
b 0.19
0.30 0.007
c 0.09
0.20 0.004
D 4.90 5.00 5.10 0.193
E 6.20 6.40 6.60 0.244
E1 4.30 4.40 4.50 0.169
e 0.65
k 0°
8° 0°
L 0.45 0.60 0.75 0.018
L1 1.00
aaa 0.10
Inches
Typ.
0.039
0.197
0.252
0.173
0.0256
0.024
0.039
Max.
0.047
0.006
0.041
0.012
0.008
0.201
0.260
0.177
0.030
0.004
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6 Ordering information
Ordering information
Table 14. Order codes
Part number
Temperature
range
TSV622ID/DT
TSV622AID/DT
TSV622IST
TSV622AIST
TSV622ILT
TSV623IST
-40° C to +125° C
TSV623AIST
TSV624IPT
TSV624AIPT
TSV625IPT
TSV625AIPT
Package
SO-8
MiniSO-8
SOT23-8
MiniSO-10
TSSOP-14
TSSOP-14
Packing
Marking
Tube and tape & reel
Tape & reel
Tape & reel
Tape & reel
Tape & reel
Tape & reel
TSV622
TSV622A
K107
K143
K107
K114
K144
TSV624
TSV624A
TSV625
TSV625A
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7 Revision history
Table 15. Document revision history
Date
Revision
25-May-2009
1 Initial release.
Changes
TSV62x
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