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TS331IYLT

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TS331IYLT

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Part Number TS331IYLT
Manufacturer STMicroelectronics
Description IC COMPARATOR SINGLE SOT23-5
Datasheet TS331IYLT Datasheet
Package SC-74A, SOT-753
In Stock 12,000 piece(s)
Unit Price $ 0.2668 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jun 8 - Jun 13 (Choose Expedited Shipping)
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Part Number # TS331IYLT (Linear - Comparators) is manufactured by STMicroelectronics and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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TS331IYLT Specifications

ManufacturerSTMicroelectronics
CategoryIntegrated Circuits (ICs) - Linear - Comparators
Datasheet TS331IYLTDatasheet
PackageSC-74A, SOT-753
SeriesAutomotive, AEC-Q100
TypeGeneral Purpose
Number of Elements1
Output TypeOpen Drain
Voltage - Supply, Single/Dual (±)1.6 V ~ 5 V
Voltage - Input Offset (Max)5mV @ 5V
Current - Input Bias (Max)0.04µA @ 5V
Current - Output (Typ)93mA @ 5V
Current - Quiescent (Max)26µA
CMRR, PSRR (Typ)79dB CMRR
Propagation Delay (Max)720ns
Hysteresis-
Operating Temperature-40°C ~ 125°C
Package / CaseSC-74A, SOT-753
Mounting TypeSurface Mount
Supplier Device PackageSOT-23-5

TS331IYLT Datasheet

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This is information on a product in full production. April 2013 DocID17272 Rev 4 1/27 27 TS331, TS332, TS334 Micropower low-voltage, rail-to-rail comparators Datasheet - production data Features • Supply operation from 1.6 V to 5 V • Low current consumption: 20 μA • Rail-to-rail inputs • Wide temperature range: -40 °C to +125 °C • Low output saturation voltage • Low propagation delay: 210 ns • Open-drain output • ESD tolerance: 2 kV HBM/200 V MM • SMD packages • Automotive qualified Applications • Mobile phones • Notebooks and PDAs • Battery-supplied electronics • General-purpose portable devices • General-purpose low voltage applications Description The TS331, TS332 and TS334 are single, dual and quad micropower and low-voltage comparators. They can operate with a supply voltage ranging from 1.6 V to 5 V with a typical current consumption as low as 20 μA. In addition, rail-to-rail inputs make them a perfect choice for low-voltage applications. Their availability in tiny packages is a real advantage for overcoming space constraints. The TS33x are specified for temperatures between -40 °C to +125 °C, making them ideal for a wide range of applications. TS331 (single) TS332 (dual) TS334 (quad) SOT23-5/SC70-5 DFN6 1.2x1.3 SO8 MiniSO8 SO14 TSSOP14 DFN8 2x2 QFN16 3x3 www.st.com

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Contents TS331, TS332, TS334 2/27 DocID17272 Rev 4 Contents 1 Package pin connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2 Absolute maximum ratings and operating conditions . . . . . . . . . . . . . 4 3 Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 4 Package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 4.1 SOT23-5 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 4.2 SC70-5 (SOT323-5) package information . . . . . . . . . . . . . . . . . . . . . . . . 15 4.3 DFN6 1.2x1.3 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 4.4 DFN8 2x2 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 4.5 SO8 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 4.6 MiniSO8 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 4.7 QFN16 3x3 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 4.8 SO14 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 4.9 TSSOP14 package information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 5 Ordering information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 6 Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

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DocID17272 Rev 4 3/27 TS331, TS332, TS334 Package pin connections 1 Package pin connections Figure 1. Pin connections for each package (top view) 1. NC = not connected 2. The exposed pads of the DFN8 2x2 and the QFN16 3x3 can be connected to VCC- or left floating. TS332 TS331 TS334 SOT23-5/SC70-5 SO8/MiniSO8 SO14/TSSOP14 TS331 DFN6 1.2x1.3 14 13 12 11 10 9 87 6 5 4 3 2 1OUT2 VCC+ OUT1 IN1- IN1+ IN2- IN2+ OUT3 VCC- OUT4 IN4+ IN4- IN3+ IN3- TS334 QFN16 3x3 TS332 DFN8 2x2

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Absolute maximum ratings and operating conditions TS331, TS332, TS334 4/27 DocID17272 Rev 4 2 Absolute maximum ratings and operating conditions Table 1. Absolute maximum ratings Symbol Parameter Value Unit VCC Supply voltage (1) 1. All voltage values, except differential voltage, are referenced to Vcc- 5.5 V VID Differential input voltage ± 5.5 VIN Input voltage range (VCC-) - 0.3 to (VCC+) + 0.3 Vout Output voltage (1) 5.5 Rthja Thermal resistance junction to ambient(2) SOT23-5 SC70-5 DFN6 1.2x1.3 DFN8 2x2 SO8 MiniSO8 QFN16 3x3 SO14 TSSOP14 2. Short-circuits can cause excessive heating. These values are typical 250 205 40 57 125 190 39 105 100 °C/W Rthjc Thermal resistance junction to case (2) SOT23-5 SC70-5 SO8 MiniSO8 QFN16 3x3 SO14 TSSOP14 81 172 40 39 5 31 32 Tstg Storage temperature -65 to +150 °CTj Junction temperature 150 TLEAD Lead temperature (soldering 10 seconds) 260 ESD Human body model (HBM)(3) 3. According to JEDEC standard JESD22-A114F. 2000 VMachine model (MM)(4) 4. According to JEDEC standard JESD22-A115A. 200 Charged device model (CDM)(5) 5. According to ANSI/ESD STM5.3.1. 1500 Latchup immunity 200 mA

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DocID17272 Rev 4 5/27 TS331, TS332, TS334 Absolute maximum ratings and operating conditions Table 2. Operating conditions Symbol Parameter Value Unit Toper Operating temperature range -40 to +125 °C VCC Supply voltage (VCC+) - (VCC-) -40°C < Tamb < +125°C 1.6 to 5.0 V VICM Common mode input voltage range Tamb = +25°C -40°C < Tamb < +125°C (VCC-) - 0.2 to (VCC+) + 0.2 (VCC-) to (VCC+)

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Electrical characteristics TS331, TS332, TS334 6/27 DocID17272 Rev 4 3 Electrical characteristics Table 3. VCC+ = +1.8 V, VCC- = 0 V, Tamb = +25°C (unless otherwise specified) Symbol Parameter Test conditions Min. Typ. Max. Unit VIO Input offset voltage 0.5 5 mV -40 °C < Tamb < +125 °C 6 ΔVio/ΔT Input offset voltage drift -40 °C < Tamb < +125 °C 4.5 μV/°C IIB Input bias current (1) 25 40 nA -40°C < Tamb < +125 °C 100 IIO Input offset current (1) 1 10 -40°C < Tamb < +125 °C 100 ICC Supply current No load, output low, VICM = 0 V 20 26 μA -40 °C < Tamb < +125 °C 30 No load, output high, VICM = 0 V 22 29 -40 °C < Tamb < +125 °C 33 IOH Output current leakage VOUT = VCC+ 1 10 nA -40 °C < Tamb < +125 °C 500 VOL Output voltage low ISINK = 1 mA 24 30 mV -40 °C < Tamb < +125 °C 50 ISINK Output sink current VOUT = 1.5 V 20 22 mA -40°C < Tamb < +125°C 15 CMRR Common mode rejection ratio 0 < VICM < 1.8 V 50 68 dB TPHL Propagation delay(2) High to low output level VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 10 mV 300 ns VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 100 mV 210 310 TPLH Propagation delay(3) Low to high output level VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 10 mV 540 VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 100 mV 420 620 1. Maximum values include unavoidable inaccuracies of the industrial tests. 2. TPHL is measured when the output signal crosses a voltage level at 50% of Vcc with the following conditions: inverting input voltage (IN-) = VICM and non-inverting input voltage (IN+) moving from VICM + 100 mV to VICM - overdrive. 3. TPLH is measured when the output signal crosses a voltage level at 50% of Vcc with the following conditions: inverting input voltage (IN-) = VICM and non-inverting input voltage (IN+) moving from VICM - 100 mV to VICM + overdrive.

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DocID17272 Rev 4 7/27 TS331, TS332, TS334 Electrical characteristics Table 4. VCC+ = +2.7 V, VCC- = 0 V, Tamb = +25°C (unless otherwise specified) Symbol Parameter Test conditions Min. Typ. Max. Unit VIO Input offset voltage 0.5 5 mV -40 °C < Tamb < +125 °C 6 ΔVio/ΔT Input offset voltage drift -40 °C < Tamb < +125 °C 3.3 μV/°C IIB Input bias current (1) 25 40 nA -40 °C < Tamb < +125 °C 100 IIO Input offset current (1) 1 10 -40 °C < Tamb < +125 °C 100 ICC Supply current No load, output low, VICM = 0 V 21 27 μA -40 °C < Tamb < +125 °C 31 No load, output high, VICM = 0 V 23 30 -40°C < Tamb < +125 °C 34 IOH Output current leakage VOUT = VCC+ 1 10 nA -40 °C < Tamb < +125 °C 500 VOL Output voltage low ISINK = 1 mA 17 30 mV -40 °C < Tamb < +125 °C 50 ISINK Output sink current VOUT = 1.5 V 40 47 mA -40 °C < Tamb < +125 °C 30 CMRR Common mode rejection ratio 0 < VICM < 2.7 V 54 74 dB -40 °C < Tamb < +125 °C 53 TPHL Propagation delay(2) High to low output level VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 10 mV 320 ns VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 100 mV 220 320 TPLH Propagation delay(3) Low to high output level VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 10 mV 550 VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 100 mV 420 640 1. Maximum values include unavoidable inaccuracies of the industrial tests. 2. TPHL is measured when the output signal crosses a voltage level at 50% of Vcc with the following conditions: Inverting input voltage (IN-) = VICM and non-inverting input voltage (IN+) moving from VICM + 100 mV to VICM - overdrive. 3. TPLH is measured when the output signal crosses a voltage level at 50% of Vcc with the following conditions: Inverting input voltage (IN-) = VICM and non-inverting input voltage (IN+) moving from VICM - 100 mV to VICM + overdrive.

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Electrical characteristics TS331, TS332, TS334 8/27 DocID17272 Rev 4 Table 5. VCC+ = +5 V, VCC- = 0 V, Tamb = +25°C (unless otherwise specified) Symbol Parameter Test conditions Min. Typ. Max. Unit VIO Input offset voltage 0.5 5 mV -40 °C < Tamb < +125 °C 6 ΔVio/ΔT Input offset voltage drift -40 °C < Tamb < +125 °C 1.3 μV/°C IIB Input bias current (1) 30 40 nA -40 °C < Tamb < +125 °C 100 IIO Input offset current (1) 1 10 -40 °C < Tamb < +125 °C 100 ICC Supply current No load, output low, VICM = 0 V 23 30 μA -40 °C < Tamb < +125 °C 34 No load, output high, VICM = 0 V 26 34 -40 °C < Tamb < +125 °C 38 IOH Output current leakage VOUT = VCC+ 1 10 nA -40 °C < Tamb < +125 °C 600 VOL Output voltage low ISINK = 4 mA 48 60 mV -40 °C < Tamb < +125 °C 80 ISINK Output sink current VOUT = 1.5 V 82 93 mA -40 °C < Tamb < +125 °C 60 AV Voltage gain 40 100 V/mV CMRR Common mode rejection ratio 0 < VICM < 5 V 60 79 dB -40 °C < Tamb < +125 °C 58 SVR Supply voltage rejection ΔVCC = 1.8 to 5 V 56 75 -40 °C < Tamb < +125 °C 56 TPHL Propagation delay(2) High to low output level VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 10 mV 380 ns VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 100 mV 270 430 TPLH Propagation delay(3) Low to high output level VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 10 mV 570 VICM = 0 V, RL = 5.1 kΩ, CL = 50 pF, overdrive = 100 mV 450 720 1. Maximum values include unavoidable inaccuracies of the industrial tests. 2. TPHL is measured when the output signal crosses a voltage level at 50% of Vcc with the following conditions: Inverting input voltage (IN-) = VICM and non-inverting input voltage (IN+) moving from VICM + 100 mV to VICM - overdrive. 3. TPLH is measured when the output signal crosses a voltage level at 50% of Vcc with the following conditions: Inverting input voltage (IN-) = VICM and non-inverting input voltage (IN+) moving from VICM - 100 mV to VICM + overdrive.

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DocID17272 Rev 4 9/27 TS331, TS332, TS334 Electrical characteristics Figure 2. Supply current versus supply voltage with output high, VICM = 0 V Figure 3. Supply current versus supply voltage with output high, VICM = VCC Figure 4. Supply current versus supply voltage with output low, VICM = 0 V Figure 5. Supply current versus supply voltage with output low, VICM = VCC Figure 6. Supply current versus temperature Figure 7. Input bias current versus input common-mode voltage

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Dul*****Owen

May 29, 2020

Great product at a great price. They were so CHEAP.

Magg*****anchez

May 23, 2020

Very much appreciate the thoughtful system to hold multiple orders, including back ordered items, can be shipped at once rather than incremental shipments.

Bria*****arson

May 23, 2020

I've made a few purchases from Heisener and always get a friendly technician helped me with locate what I was looking for. That kind of attitude is greatly appreciated.

Ray*****Welch

May 4, 2020

I've had no issues. Good product, would buy again.

Madel*****Dugal

May 3, 2020

The products are good, the amount is correct. The values are correct.

Ayli*****over

May 3, 2020

These did exactly what I needed them to do. Electricity only flows in one direction. Perfect.

Leo*****arain

April 30, 2020

Every time I order, I get it correctly filled and faster than most of website. For a friendly use operate system, you guys are the best!

Tomm*****lderon

April 21, 2020

They work great and I hope to find more used for the extra ones.

Alai*****aves

April 17, 2020

I recommend this and would definitely buy it again.

Dian*****rron

April 15, 2020

Very user friendly to find part and specs. Easy to deal with the transaction for different payment types. Thanks!

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