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Home ›  TT90 > TSV911AIDT-TSV911AIYDT-TSV911IDT-TSV911IYDT-TSV912AIDT-TSV912AIST-TSV912AIYDT-TSV912IDT-TSV912IST-TSV912IYDT-TSV914AIDT-TSV914AIPT-TSV914AIYDT-TSV914AIYPT-TSV914IDT-TSV914IYDT-TSV914IYPT,Rail to rail input/output widebandwidth op-amps
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TSV912AIDTSTN/a6000avaiRail to rail input/output widebandwidth op-amps
TSV912AISTSTN/a200avaiRail to rail input/output widebandwidth op-amps
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TSV912ISTSTMN/a4000avaiRail to rail input/output widebandwidth op-amps
TSV912IYDTSTN/a5200avaiRail to rail input/output widebandwidth op-amps
TSV914AIDTSTN/a2500avaiRail to rail input/output widebandwidth op-amps
TSV914AIPTSTN/a2500avaiRail to rail input/output widebandwidth op-amps
TSV914AIYDTSTN/a2500avaiRail to rail input/output widebandwidth op-amps
TSV914AIYPTSTN/a2500avaiRail to rail input/output widebandwidth op-amps
TSV914IDTSTN/a2500avaiRail to rail input/output widebandwidth op-amps
TSV914IYDTSTN/a2500avaiRail to rail input/output widebandwidth op-amps
TSV914IYPTSTN/a2500avaiRail to rail input/output widebandwidth op-amps
TSV911AIDTSTN/a5200avaiRail to rail input/output widebandwidth op-amps
TSV911AIYDTSTN/a5200avaiRail to rail input/output widebandwidth op-amps
TSV911IDTSTN/a5200avaiRail to rail input/output widebandwidth op-amps
TSV911IYDTSTN/a5200avaiRail to rail input/output widebandwidth op-amps


TSV912AIDT ,Rail to rail input/output widebandwidth op-ampsFeaturesPin connections (top view)■ Rail-to-rail input and outputSOT23-5■ Wide bandwidthOut 1 5 V O ..
TSV912AIST ,Rail to rail input/output widebandwidth op-ampsAbsolute maximum ratings and operating conditions Table 3. Operating conditionsSymbol Pa ..
TSV912AIYDT ,Rail to rail input/output widebandwidth op-ampsapplicationsDescriptionSO-14, TSSOP14 The TSV91x operational amplifiers offer low 1 1 14 14 Ou Out ..
TSV912IDT ,Rail to rail input/output widebandwidth op-ampsElectrical characteristics at V = +2.5 V with V = 0 V, V = V /2, R connected CC+ CC- icm CC L(1)to ..
TSV912IST ,Rail to rail input/output widebandwidth op-ampsapplicationsDescriptionSO-14, TSSOP14 The TSV91x operational amplifiers offer low 1 1 14 14 Ou Out ..
TSV912IST ,Rail to rail input/output widebandwidth op-ampsTSV91x, TSV91xASingle, dual and quad rail-to-rail input/output 8 MHzoperational amplifiersDatasheet ..
UC3625DWTRG4 ,Brushless DC Motor Controller 28-SOIC 0 to 70MAXIMUM RATINGSover operating free-air temperature range (unless otherwise noted)VALUE UNITVCC 20Su ..
UC3625N ,Brushless DC Motor Controller SLUS353C –NOVEMBER 2003–REVISED JUNE 2013Figure 1. CONNECTION DIAGRAME/AIN(+) 1 28 E/AIN(-)VREF 2 ..
UC3625N ,Brushless DC Motor Controller(1)ABSOLUTE
UC3625Q ,Brushless DC Motor ControllerFEATURES DESCRIPTIONThe UC3625 family of motorcontroller devices• Drives Power MOSFETs or Power Dar ..
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UC3637DW ,Switched Mode Controller for DC Motor DriveELECTRICAL CHARACTERISTICS: Unless otherwise stated, these specifications apply for TA = -55°C to + ..


TSV911AIDT-TSV911AIYDT-TSV911IDT-TSV911IYDT-TSV912AIDT-TSV912AIST-TSV912AIYDT-TSV912IDT-TSV912IST-TSV912IYDT-TSV914AIDT-TSV914AIPT-TSV914AIYDT-TSV914AIYPT-TSV914IDT-TSV914IYDT-TSV914IYPT
Rail to rail input/output widebandwidth op-amps
March 2012 Doc ID 12584 Rev 8 1/22
TSV91x, TSV91xA

Single, dual and quad rail-to-rail input/output 8 MHz
operational amplifiers
Datasheet − production data
Features
Rail-to-rail input and output Wide bandwidth Low power consumption: 820 µA typ Unity gain stability High output current: 35 mA Operating from 2.5 V to 5.5V Low input bias current, 1 pA typ Low input offset voltage: 1.5 mV max (A grade) ESD internal protection ≥ 5kV Latch-up immunity
Applications
Battery-powered applications Portable devices Signal conditioning Active filtering Medical instrumentation Automotive applications
Description

The TSV91x operational amplifiers offer low
voltage operation and rail-to-rail input and output,
as well as an excellent speed/power consumption
ratio, providing an 8 MHz gain-bandwidth product
while consuming only 1.1 mA maximum at 5V.
The op-amps are unity gain stable and feature an
ultra-low input bias current.
The devices are ideal for sensor interfaces,
battery-supplied and portable applications, as
well as active filtering.
Table 1. Device summary
Absolute maximum ratings and operating conditions TSV91x, TSV91xA
2/22 Doc ID 12584 Rev 8 Absolute maximum ratings and operating conditions
Table 2. Absolute maximum ratings All voltage values, except differential voltage, are with respect to network ground terminal. Differential voltages are the non-inverting input terminal with respect to the inverting input terminal. VCC-Vin must not exceed 6V. Input current must be limited by a resistor in series with the inputs. Short-circuits can cause excessive heating and destructive dissipation. Rth are typical values. Human body model: a 100 pF capacitor is charged to the specified voltage, then discharged through a
1.5kΩ resistor between two pins of the device. This is done for all couples of connected pin combinations
while the other pins are floating. 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). This is done for all couples of
connected pin combinations while the other pins are floating. Charged device model: all pins and the package are charged together to the specified voltage and then
discharged directly to the ground through only one pin. This is done for all pins.
TSV91x, TSV91xA Absolute maximum ratings and operating conditions
Doc ID 12584 Rev 8 3/22
Table 3. Operating conditions
Electrical characteristics TSV91x, TSV91xA
4/22 Doc ID 12584 Rev 8
2 Electrical characteristics

Table 4. Electrical characteristics at VCC+ = +2.5 V with VCC- = 0V , Vicm = VCC/2, RL connected
to VCC/2, full temperature range (unless otherwise specified)(1)

TSV91x, TSV91xA Electrical characteristics
Doc ID 12584 Rev 8 5/22
All parameter limits at temperatures other than 25°C are guaranteed by correlation. Guaranteed by design.
Table 4. Electrical characteristics at VCC+ = +2.5 V with VCC- = 0V , Vicm = VCC/2, RL connected
to VCC/2, full temperature range (unless otherwise specified)(1)
(continued)
Table 5. Electrical characteristics at VCC+ = +3.3 V with VCC- = 0V , Vicm = VCC/2, RL connected
to VCC/2, full temperature range (unless otherwise specified)(1)

Electrical characteristics TSV91x, TSV91xA
6/22 Doc ID 12584 Rev 8
All parameter limits at temperatures other than 25°C are guaranteed by correlation. Guaranteed by design.
Table 5. Electrical characteristics at VCC+ = +3.3 V with VCC- = 0V , Vicm = VCC/2, RL connected
to VCC/2, full temperature range (unless otherwise specified)(1)
(continued)
Table 6. Electrical characteristics at VCC+ = +5 V with VCC- = 0 V, Vicm = VCC/2, RL connected to
VCC/2, full temperature range (unless otherwise specified)(1)

TSV91x, TSV91xA Electrical characteristics
Doc ID 12584 Rev 8 7/22 All parameter limits at temperatures other than 25°C are guaranteed by correlation. Guaranteed by design.
Table 6. Electrical characteristics at VCC+ = +5 V with VCC- = 0 V, Vicm = VCC/2, RL connected to
VCC/2, full temperature range (unless otherwise specified)(1)
(continued)
Electrical characteristics TSV91x, TSV91xA
8/22 Doc ID 12584 Rev 8



Figure 1. Input offset voltage distribution at
T= 25°C
Figure 2. Input offset voltage distribution at = 125°C
Figure 3. Supply current vs. input common
mode voltage at VCC =2.5V
Figure 4. Supply current vs. input common
mode voltage at VCC =5V
Figure 5. Output current vs. output voltage at
VCC =2.5V
Figure 6. Output current vs. output voltage at
VCC =5V
TSV91x, TSV91xA Electrical characteristics
Doc ID 12584 Rev 8 9/22



Figure 7. Voltage gain and phase vs.
frequency at VCC = 2.5 V and
Vicm= 0.5 V
Figure 8. Voltage gain and phase vs.
frequency at VCC = 5.5 V and
Vicm =0.5V
Figure 9. Phase margin vs. capacitive load Figure 10. Phase margin vs. output current
Figure 11. Positive slew rate Figure 12. Negative slew rate
Electrical characteristics TSV91x, TSV91xA
10/22 Doc ID 12584 Rev 8



Figure 13. Distortion + noise vs. frequency Figure 14. Distortion + noise vs. output
Figure 15. Noise vs. frequency Figure 16. Phase margin vs. capacitive load
and serial resistor
Figure 17. Supply current vs. supply voltage
TSV91x, TSV91xA Application information
Doc ID 12584 Rev 8 11/22
3 Application information
3.1 Driving resistive and capacitive loads

These products are low-voltage, low-power operational amplifiers optimized to drive rather
large resistive loads above 2 kΩ.
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 in-series
resistor at the output can improve the stability of the device (Figure 18 shows the
recommended in-series resistor values). Once the in-series resistor value has been
selected, the stability of the circuit should be tested on bench and simulated with the
simulation model.
Figure 18. In-series resistor vs. capacitive load
3.2 PCB layouts

For correct operation, it is advised to add 10 nF decoupling capacitors as close as possible
to the power supply pins.
3.3 Macromodel

An accurate macromodel of the TSV91x is available on STMicroelectronics’ web site at
. This model is a trade-off between accuracy and complexity (that is, time
simulation) of the TSV91x 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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