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ST TSV991 TSV992 TSV994 TSV991A TSV992A TSV994A handbook

1. Figure 13 Noise vs frequency Figure 14 Supply current vs supply voltage 1000 S T 25 C N 833 T 125 C 2 Z 667 c 5 2 500 T 40 gt 3 E 333 5 167 Vicm Vcc 2 3e bes 05 10 15 20 25 30 35 40 45 50 ee j I Supply voltage V ky Doc ID 12833 Rev 8 9 20 Application information TSV99x TSV99xA 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 The TSV99x are not unity gain stable To ensure proper stability they must be used in a gain configuration with a minimum gain of 3 or 4 However they can be used in a follower configuration by adding a small in series resistor at the output which drastically improves the stability of the device Figure 15 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
2. Figure 15 In series resistor vs capacitive Figure 16 Peaking versus capacitive load load when TSV99x used in follower with or without feedback capacitor configuration in inverting gain configuration 1000 Minimum serial resistor to be added to a given H capacitive load in order to ensure stability Without C Vec 5V Vicm 2 5V T 25 C 100 kohms _ Luc 100 10 o T 5 Peaking lt 2 3dB 2 2 Vcc 5V Vicm 2 5V T 25 C 9 G 2 R 100 kohms R 50 kohms a 10 4 Peaking gt 2 3dB With C 470fF 1 1 100p 1 10 100 10 100p Capacitive Load F Capacitive Load F Another way to improve stability and reduce peaking is to add a capacitor in parallel with the feedback resistor As shown in Figure 16 the feedback capacitor drastically reduces the peaking versus capacitive load inverting gain configuration gain 2 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 10 20 Doc ID 12833 Rev 8 ky TSV99x TSV99xA Application information 3 3 Macromodel An accurate macromodel of the TSV99x is available on STMicroelectronics web site at www st com This model is a trade off betwe
3. Figure 24 SO 14 package mechanical drawing D hx45 1 1 E i B Al ddd SEATING PLANE 0 25 mm C GAGE PLANE 14 8 H 411 1 7 Table 10 50 14 package mechanical data Dimensions Millimeters Inches Ref Min Typ Max Min Typ Max A 1 35 1 75 0 05 0 068 Al 0 10 0 25 0 004 0 009 A2 1 10 1 65 0 04 0 06 B 0 33 0 51 0 01 0 02 C 0 19 0 25 0 007 0 009 D 8 55 8 75 0 33 0 34 E 3 80 4 0 0 15 0 15 e 1 27 0 05 H 5 80 6 20 0 22 0 24 h 0 25 0 50 0 009 0 02 L 0 40 1 27 0 015 0 05 k 8 max ddd 0 10 0 004 Doc ID 12833 Rev 8 17 20 Ordering information TSV99x TSV99xA 5 Ordering information Table 11 Order codes Order code Temperature range Package Packing Marking TSV991ILT K130 SOT23 5 TSV991AILT K129 Tape amp reel TSV992IST K132 MiniSO 8 TSV992AIST K135 TSV992ID Tube TSV9921DT Tape amp reel EE TSV992AID di Tube TSV992AIDT Tape amp reel ver TSV994IPT V994l TSSOP14 Tape amp reel TSV994AIPT V994AI TSV994ID Tube TSV994IDT Tape amp reel 14 TSV994AID 40 C to 125 C Tube eg TSV994AIDT Tape amp reel TSV991IYLT SOT23 5 K149 Tape amp reel TS
4. T 25 C T 125 C 140 40 L 3 Vec 5V Vicm 2 5V Tamb 125 C 30 a 100 s g 6 im i gt 20 60 s c 2 9 40 9 40 20 0 0 5 4 3 2 4 0 1 2 3 4 5 5 4 3 2 1 0 1 2 3 4 5 Input offset Voltage mV Input offset Voltage mV Figure 3 Supply current vs input common Figure 4 Supply current vs input common mode voltage at Voc 2 5 V mode voltage at Vec 5 V 1 0 1 0 I 25 T 25 C 0 8 A T A lt 0 7 T 40 C T 0 7 SECH T 125 C 125 40 C 0 5 05 2 2 203 2 2 Vcc 2 5V 2 Vcc 5V 0 2 0 2 0 0 0 0 0 0 0 5 1 0 1 5 2 0 2 5 0 1 2 3 4 5 Input Common Mode Voltage V Input Common Mode Voltage V Figure 5 Output current vs output voltage at Figure6 Output current vs output voltage at Vec 2 5 V Vec 5V 35 T 40 C Sink Vcc 2 5V 35 T 40 C Sink Vec 5V 20 T 125 C T 125 C 15 T 25 C Output Current mA Output C
5. TSV991 TSV992 TSV994 74 TSV991A TSV992A TSV994A Rail to rail input output 20 MHz GBP operational amplifiers Features m Low input offset voltage 1 5 mV max A grade EN m Rail to rail input and output top view m Wide bandwidth 20 MHz stable for gain 2 3 m Low power consumption 820 pA typ SOT23 5 m High output current 35 mA m Operating from 2 5 V to 5 5 V m Low input bias current 1 pA typ m ESD internal protection 2 5 kV m Latch up immunity Applications m Battery powered applications m Portable devices Voce m Signal conditioning Out2 m Active filtering In2 m Medical instrumentation In2 Automotive applications Description The TSV991 2 4 family of single dual and quad operational amplifiers offers low voltage operation and rail to rail input and output Out1 These devices feature an excellent speed power In1 consumption ratio offering a 20 MHz gain int bandwidth stable for gains above 3 100 pF capacitive load while consuming only 1 1 mA Voc maximum at 5 V They also feature an ultra low input bias current In2 These characteristics make the TSV991 2 4 In2 family ideal for sensor interfaces battery supplied Out and portable applications as well as active filtering January 2010 Doc ID 12833 Rev 8 1 20 www st com Absolute maximum ratings and operating conditions TSV99x TSV99xA 1 2 20 Absolute maximum ratings and operating c
6. 25 Gain Minimum gain for stability CL 100 pF del E ees 5 VN Ry 2 C 100 pF f 100 kHz _ _ SR Slew rate Top 25 C 10 V us Equivalent input noise _ DES _ 95 f 10 kHz Top 25 C 21 i 1 1 kHz 2kQ Bw 22 kHz THD N Total harmonic distortion Mem Vcc 1 2 Vout 1 9 Von 0 001 Top 25 C 1 All parameter limits at temperatures other than 25 C are guaranteed by correlation 2 Guaranteed by design ky Doc ID 12833 Rev 8 5 20 Electrical characteristics TSV99x TSV99xA Table 5 Electrical characteristics at Vcc 5 V Vcc 0 V Vic 2 R connected to Vcc 2 full temperature range unless otherwise specified Symbol Parameter Conditions Min Typ Unit DC performance Offset voltage Top 25 C 01 45 TSV99x Tmin lt Top lt T 7 5 Vio 1 2 35 1 5 id TSV99xA m I I lt lt Tmax 3 DN Input offset voltage drift 2 uV C Input offset current 2 Top 25 C 1 10 UR S Vout 2 Tmin lt Top lt Tmax 100 l Input bias current 25 1 10 iB Vout Vcc 2 Tmin lt lt Tmax 100 cas 7 modenelecten tee Sas C 62 82 m 20 log Tmin lt Top lt Tmax d Supply voltage rejection ratio _ _ SVR 20 log AVgo AVig Voc 2 5to 5 V 70 86 dB I 10 Vou 0 5 V to 4
7. 0 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 Doc ID 12833 Rev 8 13 20 Package information TSV99x TSV99xA 4 2 MiniSO 8 package information Figure 18 MiniSO 8 package mechanical drawing E1 29 lt e ES CH S SEATING E PLANE z m 2 s gt 3 U N L gt Table 7 MiniSO 8 package mechanical data Dimensions Ref Millimeters Inches Min Typ Max Min Typ Max A 1 1 0 043 A1 0 0 15 0 0 006 A2 0 75 0 85 0 95 0 030 0 033 0 037 b 0 22 0 40 0 009 0 016 0 08 0 23 0 003 0 009 D 2 80 3 00 3 20 0 11 0 118 0 126 4 65 4 90 5 15 0 183 0 193 0 203 E1 2 80 3 00 3 10 0 11 0 118 0 122 e 0 65 0 026 L 0 40 0 60 0 80 0 016 0 024 0 031 L1 0 95 0 037 L2 0 25 0 010 k 0 8 0 8 ccc 0 10 0 004 14 20 Doc ID 12833 Rev 8 TSV99x TSV99xA Package information 4 3 SO 8 package information Figure 19 SO 8 package mechanical drawing hx45 ale SEATING PLANE 0 25 mm C GAGE PLANE 8 5 m m 1 Table 8 SO 8 package mechanical data Dimensions Ref Millimeters Inches Min Typ Max
8. 5 V T225 C 80 91 dB Aua Large signal voltage gain Tmin lt Top Tmax 75 i s dB Vec RL 10 Tmin Top Tmax 15 40 Vou High level output voltage D 600 9 Tmin lt Top lt Tmax 45 150 mV D 10 Tmin lt Top lt Tmax _ 15 40 Vo Low level output voltage RL B00 Tmin lt Tope Trax 45 150 mV 1 Vo 5 V Top 25 18 32 ii Tmin Tamb lt Tmax 16 lout mA Vo OV Top 25 C 18 35 PS Tmin Tamb lt Tmax 16 lcc Supply current per operator No load Vout 2 5 V Tmin lt lt Tmax 0 82 1 1 AC performance GBP Gain bandwidth product Fire 100 100 Riz 20 MHz Top 25 C See m Phase margin 60 Ry 10kQ Ry 2 KQ Gain Minimum gain for stability CL 100 pF Top 25 C 5 VN SR Slew rate 2 kQ C 100 pF Top 25 C 10 V us Equivalent input noise _ Zonk DN olge f 10 kHz Top 25 21 T G 1 f 1 kHz R 2 Bw 22 kHz 0 000 THD N Total harmonic distortion 1 2 Vout 3 6 7 Top 25 C 1 All parameter limits at temperatures other than 25 C are guaranteed by correlation 2 Guaranteed by design d 6 20 Doc ID 12833 Rev 8 TSV99x TSV99xA Electrical characteristics Figure 1 Input offset voltage distribution at Figure 2 Input offset voltage distribution at
9. Min Typ Max A 1 75 0 069 A1 0 10 0 25 0 004 0 010 A2 1 25 0 049 b 0 28 0 48 0 011 0 019 0 17 0 23 0 007 0 010 D 4 80 4 90 5 00 0 189 0 193 0 197 5 80 6 00 6 20 0 228 0 236 0 244 E1 3 80 3 90 4 00 0 150 0 154 0 157 e 1 27 0 050 h 0 25 0 50 0 010 0 020 L 0 40 1 27 0 016 0 050 L1 1 04 0 040 k 0 8 1 8 ccc 0 10 0 004 Doc ID 12833 Rev 8 15 20 Package information TSV99x TSV99xA 4 4 16 20 TSSOP14 package information Figure 20 TSSOP14 package mechanical drawing E1 Slo Gef TT L1 Table 9 TSSOP14 package mechanical data Dimensions Ref Millimeters Inches Min Typ Max Min Typ Max A 1 20 0 047 A1 0 05 0 15 0 002 0 004 0 006 A2 0 80 1 00 1 05 0 031 0 039 0 041 b 0 19 0 30 0 007 0 012 0 09 0 20 0 004 0 0089 D 4 90 5 00 5 10 0 193 0 197 0 201 6 20 6 40 6 60 0 244 0 252 0 260 E1 4 30 4 40 4 50 0 169 0 173 0 176 e 0 65 0 0256 L 0 45 0 60 0 75 0 018 0 024 0 030 L1 1 00 0 039 k 0 8 0 8 aaa 0 10 0 004 Doc ID 12833 Rev 8 ky TSV99x TSV99xA Package information 4 5 4 SO 14 package information
10. V991AIYLT Automotive grade K150 TSVogalvpT SO 8 Tape amp reel V992lY TSV992AIYDT Automotive grade Tape amp reel V992AY 5 9921 5 2 5 8 149 Tape amp reel TSV992AIYST Automotive grade K150 TSV994lIYDT so 14 1 Tape amp reel V994IY TSV994AIYDT Automotive grade Tape amp reel V994AY TSV994IYPT TSSOP14 V994lY i Tape amp reel TSV994AlYPT Automotive grade V994AY 1 Allpackages are Moisture Sensitivity Level 1 as per Jedec J STD 020 C except SO 14 which is Jedec level 3 2 Qualification and characterization according to AEC Q100 and Q003 or equivalent advanced screening according to AEC Q001 amp Q 002 or equivalent 18 20 Doc ID 12833 Rev 8 ky TSV99x TSV99xA Revision history 6 4 Revision history Table 12 Document revision history Date Revision Changes 31 Jul 2006 1 Preliminary data release for product under development 07 Nov 2006 2 Final version of datasheet 12 Dec 2006 3 Noise and distortion figures added ESD tolerance modified for SO 14 CDM in Table 1 Absolute maximum ratings Automotive grade commercial products added in Table 11 Order 07 Jun 2007 4 codes Note about SO 14 added in Table 11 Order codes Limits in temperature added in Section 2 Electrical characteristics Corrected MiniSO 8 package information 11 Feb 2008 5 Corrected footnote for automotive grade order codes in order code table Improved presentation of package in
11. aracteristics at Voc 3 3 V Vcc 0 V Viem Vecl2 with R connected to Vcc 2 full temperature range unless otherwise specified Symbol Parameter Conditions Min Typ Unit DC performance Offset voltage Top 25 C 0 1 4 5 Vs TSV99x Tmin lt ES Tmax 7 5 Top 25 4 TSV99xA op 25 5 Tmin lt Top lt Tmax 3 DN Input offset voltage drift 2 Input offset current 2 Top 25 1 10 lo Vou Meel PA Vout Vcc 2 Tmin lt Top lt Tmax 7 100 Input bias current Top 25 C 1 10 lb Vout Mee pA Vout Vcc 2 Tmin lt Top lt Tmax 7 7 100 CMR Common mode rejection 0 V to 3 3 V Vout 1 65 V Top 25 C 60 78 _ dB ratio 20 log AVi AVio Tmin lt Top lt Tmax 55 10 Vout 0 5 to 2 8 V T 25 C 80 90 Ai Large signal voltage gain H Vout dB Tmin lt Top lt Tmax 75 Vec D 10 Tmin lt Top lt Tmax 15 40 Vou High level output voltage RL 6000 Tmin lt Top lt Tmax 45 150 mV D 10 Tmin lt Top lt Tmax _ 15 40 Vo Lowlevel output voltage BD0 O Tore Tog Triax 45 150 mV 1 Vo 3 3 V Top 25 C 18 32 sink Tmin lt Top lt Tmax 16 lout mA i Vo 0 V Top 25 C 18 35 Tmin lt lt Tmax 16 7 lcc Supply current per operator No load Vout Voc 2 Tmin lt Top lt Tmax 0 8 1 1 mA AC performance GBP Gain bandwidth product Ri 2 CL 100 pF 100 kHz 20 MHz Top
12. 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 AN AUTHORIZED ST REPRESENTATIVE ST PRODUCTS ARE NOT RECOMMENDED AUTHORIZED OR WARRANTED FOR USE IN MILITARY AIR CRAFT SPACE LIFE SAVING OR LIFE 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 prod
13. en accuracy and complexity that is time simulation of the TSV99x 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 ky Doc ID 12833 Rev 8 11 20 Package information TSV99x TSV99xA 4 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 12 20 Doc ID 12833 Rev 8 ky TSV99x TSV99xA Package information 4 1 SOT23 5 package information Figure 17 SOT23 5 package mechanical drawing B e _ D1 Al Table 6 SOT23 5 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 8
14. formation Added input current information in table Table 1 Absolute maximum ratings Added Chapter 3 Application information 25 May 2009 6 Updated all packages in Chapter 4 Package information Added new order codes TSV991IYLT TSV991AIYLT TSV992lYST TSV992AIYST TSV994IYPT TSV994AIYPT in Table 11 Order codes Added A versions of devices in title on cover page Added parameters for full temperature range in Table 3 Table 4 Table 5 19 Oct 2009 7 Removed gain margin and phase margin parameters in Table 3 Table 4 and Table 5 These parameters have been replaced by the gain parameter minimum gain for stability Added Figure 14 and Figure 16 Added parameters for full temperature range in Table 3 Table 4 and Table 5 14 Jan 2010 8 jain Modified Note 2 relative to automotive grade in Table 11 Order codes Doc ID 12833 Rev 8 19 20 TSV99x TSV99xA 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 services 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
15. hase vs frequency at Vcc 5 V and frequency at Vcc 5 V and Vicm 0 5 V 2 5 V 40 160 40 160 30 120 30 Gain 120 Gain 20 80 20 Phase 80 Phase 10 40 _ 10 40 m ke D g 0 g s 9 40 40 49 amp 720 5 Vicm 0 5V 80 20 HI Vec 5V Vicm 2 5V 80 Cl 100pF RI 2KOhm Vrl Vcc 2 Cl 100pF RI 2KOhm 2 30 amb 25 C 120 20 Cl Tamb 25 C 120 40 160 40 160 10 10 10 10 10 Frequency Hz Frequency Hz Figure 9 Positive slew rate Figure 10 Negative slew rate 14 14 T 40 C 2 T 25 C g 12 Ee E gt 10 o 25 E T 25 C 2 T 125 C E o 6 46 E Vin from 0 5V to Vcc 0 5V s 4 SR calculated from 10 to 90 2 4 vin from 0 5V to Vcc 0 5V SR calculated from 10 to 90 2 2 0 0 2 5 3 0 3 5 4 0 4 5 5 0 5 5 2 5 3 0 3 5 4 0 4 5 5 0 5 5 Supply Voltage V Supply Voltage V Figure 11 Distortion noise vs frequency Figure 12 Distortion noise vs output voltage 0 01 0 100 Vec 2 5V g ES Vcc 2 5V g a gt 0 010 ESL DL SEM 2 Q T f 1kHz RI 2kOh Vec 3 3V vce 5V VouteVcc 1 4Vpp 4 RI 2kOhms 0 001 BW 22kHz Gain 1 Vicm Vcc 1V 2 BW 80kHz Vicm Vec 1V 2 1E 4 10 100 1000 10000 100000 0 01 0 1 1 Frequency Hz Output Voltage V 8 20 Doc ID 12833 Rev 8 TSV99x TSV99xA Electrical characteristics
16. ll couples of pin combinations with other pins floating Charged device model all pins plus package are charged together to the specified voltage and then discharged directly to the ground d Doc ID 12833 Rev 8 TSV99x TSV99xA Absolute maximum ratings and operating conditions Table 2 Operating conditions Symbol Parameter Value Unit Voc Supply voltage 2 5 to 5 5 V Vicm Common mode input voltage range Vcc 0 1 to Voc 0 1 V Top Operating free air temperature range 40 to 125 C ky Doc ID 12833 Rev 8 3 20 Electrical characteristics TSV99x TSV99xA 2 Electrical characteristics Table 3 Electrical characteristics at Voc 2 5 V Vec 0 V Viem 2 with Ry connected to 2 full temperature range unless otherwise specified Symbol Parameter Conditions Min Typ Max Unit DC performance Offset voltage Top 25 C 01 45 TSV99x Tmin Top lt T 7 5 Vio 1 5 id TSV99xA m I Tmin lt Top lt Tmax 3 DV Input offset voltage drift 2 l Input offset current Top 25 C 1 10 9 Vout 2 Tmin lt Top lt Tmax 100 l Input bias current Top 25 C z 1 10 D Vout Vcc 2 Yos Top lt Tmax 100 Common mode rejection 0 V to 2 5 V Vout 1 25 V Top 25 C 58 75 CMR ratio 20 log AVio AVio Tmin lt Top lt Tmax 53 R 10 KQ Vou
17. onditions Table 1 Absolute maximum ratings Symbol Parameter Value Unit Supply voltage 6 V Vig Differential input voltage 2 zVcc V Vin Input voltage 9 Vcc 0 2 to Voc 0 2 V lin Input current 10 mA Tstg Storage temperature 65 to 150 C Thermal resistance junction to ambient 6 SOT23 5 250 SO 8 125 R d thja MiniSO 8 190 on SO 14 103 TSSOP14 100 Thermal resistance junction to case SOT23 5 81 SO 8 40 R z 5 8 39 5 14 31 TSSOP 14 32 Tj Maximum junction temperature 150 C HBM human body model 5 kV MM machine model 400 V Esp CDM charged device model SOT23 5 SO 8 MiniSO 8 1500 V TSSOP14 750 SO 14 500 Latch up immunity 200 mA ch OP SON de cc Value with respect to Vpp pin Differential voltages are the non inverting input terminal with respect to the inverting input terminal Vcc Vin must not exceed 6 V Input current must be limited by a resistor in series with the inputs Short circuits can cause excessive heating and destructive dissipation Rin are typical values Human body model 100 pF discharged through a 1 5 kQ resistor between two pins of the device done for all couples of pin combinations with other pins floating Machine model 200 pF charged to the specified voltage then discharged directly between two pins of the device with no external series resistor internal resistor 5 done for a
18. t 0 5 V to 2 V Top 25 C 80 89 Ai _ Large signal voltage gain P H Vout B 9p dB Tmin lt Top lt Tmax 75 Vcc Rp 10 KO Tin lt Top lt Tmax 15 40 High level output voltage D 6002 Tmin lt lt Tmax 45 150 mV D 10 Tmin lt Top lt Tmax _ 15 40 Vo Low level output voltage R 6002 Tmin lt lt Tmax 45 150 mV Vo 2 5 V Top 25 C 18 32 Sink Tmin Top lt Triax 16 lout mA Vo 0 V T 25 C 18 35 Tmin lt Top lt Tmax 16 lcc Supply current per operator No load Vout Vec 2 Tmin lt Top lt Tmax 0 78 1 1 mA AC performance GBP Gain bandwidth product CU 199 100 kriz 20 MHz Top 25 C x 22 Phase margin 60 10kO Ry 2 Gain Minimum gain for stability CL 100 pF Top 25 C 5 V V SR Slew rate 2kQ C 100 pF Top 25 C 10 V us Equivalent input noise _ _ DN voltage f 10 kHz Top 25 C 21 KR G 1 f 1 kHz 2 Bw 22 kHz THD N Total harmonic distortion Vicm Vect1 2 Vout 1 1 V 0 0017 25 C 1 All parameter limits at temperatures other than 25 C are guaranteed by correlation 2 Guaranteed by design 4 20 Doc ID 12833 Rev 8 d TSV99x TSV99xA Electrical characteristics Table 4 Electrical ch
19. ucts 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 2010 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 20 20 Doc ID 12833 Rev 8
20. urrent mA 25 T 40 C 30 L Source 30 Source 0 0 0 5 1 0 1 5 2 0 2 5 0 0 1 0 2 0 3 0 4 0 5 0 Output Voltage V Output Voltage V 2 Doc ID 12833 Rev 8 7 20 Electrical characteristics TSV99x TSV99xA Figure 7 Voltage gain and phase vs Figure 8 Voltage gain and p

ST TSV991 TSV992 TSV994 TSV991A TSV992A TSV994A handbook

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