ST TS3011 handbook
Contents
1. Figure 1 Current consumption vs power Figure 2 Current consumption vs power supply voltage output low supply voltage output high 1000 1000 900 H Viow 0V 900 H V 0V Output LOW 800 Pe 15C 800 Output HIGH T 125 C 700 700 ar T 25 C a 3 500 3 500 E 8 400 T 40 C 400 300 300 T 25 C T 40 C 200 200 100 100 0 0 0 0 05 10 15 20 25 30 35 40 45 5 0 0 0 05 10 15 20 25 30 35 40 45 5 0 Voc V Voc V Figure 3 Current consumption vs Figure 4 Output voltage vs sinking current temperature output low VCC 2 7 V 900 V 5V V 2 7V 800 H N lt OV 1 L output LOW T 125 C 700 Output LOW T 25 2 0 1 5C 600 5 8 gt 500 0 01 o Output HIGH T 40 C 400 1E 3 300 40 20 0 20 40 60 80 100 120 lE TES 0 01 Temper2. 0 15 SEATING PLANE b Nx 5 LEADS TOP VIEW K PROJECTION Table 7 C70 5 or SOT323 5 package mechanical data Dimensions Ref Millimeters Inches Min Typ Max Min Typ Max A 0 80 1 10 0 315 0 043 Al 0 10 0 004 A2 0 80 0 90 1 00 0 315 0 035 0 039 b 0 15 0 30 0 006 0 012 0 10 0 22 0 004 0 009 D 1 80 2 00 2 20 0 071 0 079 0 087 1 80 2 10 2 40 0 071 0 083 0 094 E1 1 15 1 25 1 35 0 045 0 049 0 053 e 0 65 0 025 el 1 30 0 051 L 0 26 0 36 0 46 0 010 0 014 0 018 lt 0 8 ky Doc ID 022078 Rev 1 11 14 Ordering information TS3011 4 Ordering information Table 8 Order codes Part number Temperature Package Packaging Marking range TS3011ILT SOT23 5 Tape amp reel K540 40 C 125 C TS30111ICT SC70 5 Tape amp reel K54 12 14 Doc ID 022078 Rev 1 LT TS3011 Revision history 5 Revision history Table 9 Document revision history Date Revision Changes 03 Oct 2011 1 Initial release Doc ID 022078 Rev 1 13 14 TS3011 Please Read Carefully Information in this document is provided solely in connection with ST products STMicroelectronics NV and its subsidiaries ST reserve the right to make changes corrections modifications or improvements to this document and the products and se
3. GI TS3011 Rail to rail high speed comparator Features Applications Description Propagation delay 8 ns Low current consumption 470 uA typ at 5 V Rail to rail inputs Push pull outputs Supply operation from 2 2 to 5 V Wide temperature range 40 C to 125 C ESD tolerance 2 kV HBM 200 V MM Latch up immunity 200 mA SMD packages Instrumentation Signal conditioning High speed sampling systems Portable communication systems TS3011 SOT23 5 SC70 5 d Pin connections top view OUT Vec The TS3011 single comparator features a high speed response time with rail to rail inputs Specified for a supply voltage of 2 2 to 5 V this comparator can operate over a wide temperature range of 40 C to 125 C The TS3011 offers micropower consumption as low as a few hundred microamperes thus providing an excellent ratio of power consumption current versus response time The TS3011 includes push pull outputs and is available in small packages SMD SOT23 5 and SC70 5 October 2011 Doc ID 022078 Rev 1 1 14 www st com Absolute maximum ratings and operating conditions TS3011 1 2 14 Absolute maximum ratings and operating conditions Table 1 Absolute maximum ratings Symbol Parameter Value Unit Voc Supply voltage 5 5 V Vip Differential input voltage 5 V VIN Input voltage range Vec 0 3 to Vect 0 3 V Thermal
4. TS3011 Package information 3 Package information 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 ky Doc ID 022078 Rev 1 9 14 Package information TS3011 3 1 10 14 SOT23 5 package mechanical data Figure 19 SOT23 5L package mechanical drawing B e j j ad D1 C Table 6 SOT23 5L package mechanical data Dimensions Ref Millimeters Inches Min Typ Max Min Typ Max A 0 90 1 20 1 45 0 035 0 047 0 057 Al 0 15 0 006 A2 0 90 1 05 1 30 0 035 0 041 0 051 B 0 35 0 40 0 50 0 013 0 015 0 019 0 09 0 15 0 20 0 003 0 006 0 008 D 2 80 2 90 3 00 0 110 0 114 0 118 D1 1 90 0 075 e 0 95 0 037 E 2 60 2 80 3 00 0 102 0 110 0 118 F 1 50 1 60 1 75 0 059 0 063 0 069 L 0 10 0 35 0 60 0 004 0 013 0 023 K 0 degrees 10 degrees 3 Doc ID 022078 Rev 1 TS3011 Package information 3 2 C70 5 SOT323 5 package mechanical data Figure 20 SC70 5 or SOT323 5 package mechanical drawing SIDE VIEW DIMENSIONS IN MM GAUGE PLANE IO 0 1 C COPLANAR LEADS
5. lt Tamp lt 125 C 100 pA No load output high 0 52 0 65 40 C lt Tamb lt 125 C 0 9 Icc Supply current mA No load output low 0 66 0 89 40 C lt Tamp lt 125 C 1 1 er Source 24 27 Isc Short circuit current Sink 19 22 mA source 4 MA 2 48 2 52 Vou Output voltage high 40 C lt Tamp lt 125 C 240 V sink 4mA 130 170 VoL Output voltage low 40 C lt Tamp lt 125 C 220 mV CMRR Common mode rejection ratio 0 lt View lt 2 7 V 52 70 dB C 12 pF R 1 MQ T Propagation delay Overdrive 5 mV 16 PLH flow to high output level Overdrive 15 mV 11 Overdrive 50 mV 9 13 C 12 pF RL 1 MQ Propagation delay Overdrive 5 mV 16 R PHL Thigh to low output level Overdrive 15 mV 11 Overdrive 50 mV 9 13 4 C 12 pF R 1 MQ O O TR Rise time 10 to 90 Overdrive 100 mV 2 3 ns Tr _ Fall time 90 to 10 CL 12 pF R 1 MQ 1 8 ns Overdrive 100 mV 1 All values over the temperature range are guaranteed through correlation and simulation No production tests are performed at the temperature range limits 2 The offset is defined as the average value of positive Vtpip and negative Vtpip trip points input voltage differences requested to change the output state in each direction oy gi 9 4 14 Maximum values include unavoidable inaccuracies of the industrial tests Overdrive is measured with reference to the Vrpip point Overdrive is measur
6. 3 0 3 5 4 0 4 5 5 0 VV Toy ns 18 17 Voo 2 7V 16 om OV 15 14 13 l ip T 125 C 11 T 40 C 10 9 T 25 C 8 7 6 0 10 20 30 40 50 Voy mv Figure 15 Propagation delay vs overdrive with Figure 16 Propagation delay vs overdrive with positive transition Vcc 2 7 V negative transition Vcc 5 V 13 T 125 C Hl T 25 C I T 40 C 0 10 20 30 40 50 V mV Toy ns lt u Qe T 125 C T 40 C T 25 C 10 20 30 40 50 Voy mv Figure 17 Propagation delay vs overdrive with Figure 18 Propagation delay vs temperature positive transition Vcc 5 V 125 C 10 T 40 C 8 7 T 25 C 6 V mV T ns 20 0 20 40 60 80 100 120 Temperature C 8 14 Doc ID 022078 Rev 1 3
7. SUSTAINING APPLICATIONS NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY DEATH OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE ST PRODUCTS WHICH ARE NOT SPECIFIED AS AUTOMOTIVE GRADE MAY ONLY BE USED IN AUTOMOTIVE APPLICATIONS AT USER S OWN RISK Resale of ST products with provisions different from the statements and or technical features set forth in this document shall immediately void any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever any liability of ST ST and the ST logo are trademarks or registered trademarks of ST in various countries Information in this document supersedes and replaces all information previously supplied The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners 2011 STMicroelectronics All rights reserved STMicroelectronics group of companies Australia Belgium Brazil Canada China Czech Republic Finland France Germany Hong Kong India Israel Italy Japan Malaysia Malta Morocco Philippines Singapore Spain Sweden Switzerland United Kingdom United States of America www st com 14 14 Doc ID 022078 Rev 1 ky
8. ature C lau A Figure 5 Output voltage vs sinking current Figure 6 Output voltage drop vs sourcing output low VCC 5 V current output high VCC 2 7 V ee M Vog 5V H V 2 7V 1 output LOW 1 output HIGH T 125 C T 125 C mens T 25 C oig T 25 C 0 1 gt gt 0 01 T 40 C 0 01 T 40 C 1E 3 LL 1E 3 1E 4 1E 3 0 01 0 1 1E 4 1E 3 0 01 len A source A 6 14 Doc ID 022078 Rev 1 ky TS3011 Electrical characteristics Figure 7 Output voltage drop vs sourcing Figure 8 Input offset voltage vs common current output high VCC 5 V mode voltage T T OTT FI L iI a YOY V 5V 4 L Vo 5V 1 output HIGH T 125 C N r 2 gt T 25 C 0 1 gt o a 9 7 i S a E V 0 01 T 40 C 2 TRIP 4 1E 3 1E 4 1E 3 0 01 0 1 0 1 2 3 4 5
9. ed with reference to the Vypip point Doc ID 022078 Rev 1 Hysteresis is a built in feature of the TS3011 It is defined as the voltage difference between the trip points 3 TS3011 Electrical characteristics Table 5 Vec 5 V Vicm Vcc 2 Tamb 25 C unless otherwise specified Symbol Parameter Test conditions Min Typ Max Unit 2 7 0 4 7 Vio Input offset voltage 40 C lt Tamp lt 125 C 9 9 mV AVio Input offset voltage drift 40 C lt Tamb lt 125 C 10 30 uv C Vuyst_ Input hysteresis voltage 2 mV 4 1 20 lio Input offset current 40 C lt Tomp lt 125 C 100 pA F 1 20 lip Input bias current 40 C lt Tamp lt 125 C 100 pA No load output high 0 47 0 69 40 C lt Tamb lt 125 C 0 9 Icc Supply current mA No load output low 0 60 0 91 40 C lt Tamb lt 125 C 1 1 ee Source 58 62 Isc Short circuit current Sink 58 64 mA lsource 4 MA 4 84 4 89 Vou Output voltage high 40 C lt Tamp lt 125 C 4 80 V lank 4 MA 90 120 VoL Output voltage low 40 C lt Tarp lt 125 C 180 mV CMRR Common mode rejection ratio 0 lt Vicm lt 5 V 57 74 dB SVR Supply voltage rejection AVcc 2 2 V to 5 V 79 C 12 pF R 1 MQ T Propagation delay Overdrive 5 mV 14 S PLH low to high output level Overdrive 15 mV 10 Overdrive 50 mV 8 11 CL 12 pF R 1 MQ 7 Propagation delay Overdrive 5 mV 16 oe PHL Thigh to low ou
10. high to low output level Overdrive 15 mV 12 Overdrive 50 mV 10 15 5 C 12 pF R 1 MQ O o TR Rise time 10 to 90 Overdrive 100 mV 3 0 ns Tr Fall time 90 to 10 CL 12 pR RLST Me 2 5 ns Overdrive 100 mV 1 All values over the temperature range are guaranteed through correlation and simulation No production tests are performed at the temperature range limits 2 The offset is defined as the average value of positive Vtpip and negative V p p trip points input voltage differences requested to change the output state in each direction Hysteresis is a built in feature of the TS3011 It is defined as the voltage difference between the trip points Overdrive is measured with reference to the Vrpip point 3 4 Maximum values include unavoidable inaccuracies of the industrial tests 5 6 Overdrive is measured with reference to the Vypjp point ky Doc ID 022078 Rev 1 3 14 Electrical characteristics TS3011 Table 4 Vcc 2 7 V Vicm Vcc 2 Tamb 25 C unless otherwise specified Symbol Parameter Test conditions Min Typ Max Unit 2 7 01 7 Vio Input offset voltage 40 C lt Tamp lt 125 C 9 9 mV AVio Input offset voltage drift 40 C lt Tamb lt 125 C 5 20 uv C Vuyst_ Input hysteresis voltage 2 mV 4 1 20 lio Input offset current 40 C lt Tomp lt 125 C 100 pA F 1 20 lip Input bias current 40 C
11. luse A View V Figure 9 Input offset voltage vs temperature Figure 10 Propagation delay vs common mode voltage with negative transition F ri air i ri 11 4 Voce sv Ves BV V _ Yew cc Voy 50mV 2 M T 125 C z 0 V Hi 9 g z LS gt 2 Viar 8 T 25 C 40 C 4 7 a ee EE ee 40 20 0 20 40 60 80 100 120 0 5 0 0 05 1 0 15 20 25 30 35 40 45 5 0 5 5 Temperature C VLI Figure 11 Propagation delay vs common mode voltage with positive transition Figure 12 Propagation delay vs power supply voltage with negative transition Tog ns o o Toy ns 8 095 0 0 0 5 1 0 1 5 2 0 2 5 3 0 3 5 4 0 4 5 5 0 5 5 Vicu Y ICM oO 25 30 35 40 45 50 Voc al Doc ID 022078 Rev 1 7 14 Electrical characteristics TS3011 Figure 13 Propagation delay vs power supply Figure 14 Propagation delay vs overdrive with voltage with positive transition negative transition Vcc 2 7 V 12 lt I UV lt II OmV T 125 C 7 40 C T 25 C 9 2 5
12. resistance junction to ambient RIHJA SC70 5 205 C W SOT23 5 250 Thermal resistance junction to case 3 RIHJC SC70 5 172 C W SOT23 5 81 Tera Storage temperature 65 to 150 C Ty Junction temperature 150 C TLEAD Lead temperature soldering 10 seconds 260 C Human body model HBM 4 2000 Machine model MM 200 ESD Charged device model CDM 9 y SOT23 5 1500 SC70 5 1300 Latch up immunity 200 mA PR WN All voltage values except the differential voltage are referenced to Vcc The magnitude of input and output voltages must never exceed the supply rail 0 3 V Short circuits can cause excessive heating These values are typical Human body model a 100 pF capacitor is charged to the specified voltage then discharged through a 1 5 kQ resistor between two pins of the device This is done for all couples of connected pin combinations while the other pins are floating 5 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 lt 5 Q This is done for all couples of connected pin combinations while the other pins are floating 6 Charged device model all pins and package are charged together to the specified voltage and then discharged directly to ground Table 2 Operating conditions Symbol Parameter Value Unit Toper Operating temperature range 40 to 125 C Supply vol
13. rvices described herein at any time without notice All ST products are sold pursuant to ST s terms and conditions of sale Purchasers are solely responsible for the choice selection and use of the ST products and services described herein and ST assumes no liability whatsoever relating to the choice selection or use of the ST products and services described herein No license express or implied by estoppel or otherwise to any intellectual property rights is granted under this document If any part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such third party products or services or any intellectual property contained therein UNLESS OTHERWISE SET FORTH IN ST S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY WITH RESPECT TO THE USE AND OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION OR INFRINGEMENT OF ANY PATENT COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT UNLESS EXPRESSLY APPROVED IN WRITING BY TWO AUTHORIZED ST REPRESENTATIVES ST PRODUCTS ARE NOT RECOMMENDED AUTHORIZED OR WARRANTED FOR USE IN MILITARY AIR CRAFT SPACE LIFE SAVING OR LIFE
14. tage Vcc Vec Vec V 40 C lt Tamp lt 125 C 2 2 to 5 Common mode input voltage range Vicm V 40 C lt Tamb lt 125 C Vee 0 2 to Vect 0 2 Doc ID 022078 Rev 1 3 TS3011 Electrical characteristics 2 Electrical characteristics Table 3 Vcc 2 2 V Vicm Vcc 2 Tamb 25 C unless otherwise specified Symbol Parameter Test conditions Min Typ Max Unit 2 7 0 2 7 Vio Input offset voltage 40 C lt Tamp lt 125 C 8 8 mV AVio Input offset voltage drift 40 C lt Tamb lt 125 C 5 20 uV C Vuyst_ Input hysteresis voltage 2 mV 4 1 20 lio Input offset current 40 C lt Tamp lt 125 C 100 pA 1 20 lip Input bias current 40 C lt Tamp lt 125 C 100 pA No load output high 0 52 0 64 40 C lt Tamp lt 125 C 0 9 Icc Supply current mA No load output low 0 65 0 88 40 C lt Tamb lt 125 C 1 1 ae Source 14 18 Isc Short circuit current Sink 11 14 mA source 4 mA 1 94 1 97 Vou Output voltage high 40 C lt Tarp lt 125 C 1 85 V lank 4 MA 150 190 VoL Output voltage low 40 C lt Tamp lt 125 C 250 mV CMRR Common mode rejection ratio 0 lt View lt 2 7 V 50 68 dB Cj 12 pF RL 1 MQ T Propagation delay Overdrive 5 mV 16 oe PLH low to high output level Overdrive 15 mV 12 Overdrive 50 mV 10 15 C 12 pF R 1 MQ T Propagation delay Overdrive 5 mV 16 n PHL
15. tput level Overdrive 15 mV 11 Overdrive 50 mV 9 12 c g C 12 pF RL 1 MQ O o TR Rise time 10 to 90 Overdrive 100 mV 1 1 ns C 12 pF R 1 MQ o O Te Fall time 10 to 90 Overdrive 100 mV 1 0 ns 1 All values over the temperature range are guaranteed through correlation and simulation No production tests are performed at the temperature range limits 2 The offset is defined as the average value of positive Vrrips and negative VtRip trip points input voltage differences requested to change the output state in each direction oa PrP ow K Maximum values include unavoidable inaccuracies of the industrial tests Overdrive is measured with reference to the Vtpip point Overdrive is measured with reference to the VTrRip point Doc ID 022078 Rev 1 Hysteresis is a built in feature of the TS3011 It is defined as the voltage difference between the trip points 5 14 Electrical characteristics TS3011
Download Pdf Manuals
Related Search
ST TS3011 handbook