Ltc6087 Ltc6088 Dual Quad 14mhz Rail To Rail Cmos -Books Pdf

LTC6087 LTC6088 Dual Quad 14MHz Rail to Rail CMOS
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LTC6087 LTC6088,ABSOLUTE MAXIMUM RATINGS Note 1, Total Supply Voltage V to V 6V Specified Temperature Range Note 4. Input Voltage V to V LTC6087C LTC6088C 0 C to 70 C. Input Current 10mA LTC6087H LTC6088H 40 C to 125 C. SHDNA SHDNB Voltage V to V Junction Temperature 150 C. Output Short Circuit Duration Note 2 Indefinite Storage Temperature Range 65 C to 150 C. Operating Temperature Range Note 3 Lead Temperature Soldering 10 sec. LTC6087C LTC6088C 40 C to 85 C MS8 GN16 Only 300 C. LTC6087H LTC6088H 40 C to 125 C,PIN CONFIGURATION,TOP VIEW OUTA 1 10 V. OUTA 1 8 V INA 2 9 OUTB,INA 2 7 OUTB INA 3 11 8 INB. B V 4 7 INB,SHDNA 5 6 SHDNB,MS8 PACKAGE,8 LEAD PLASTIC MSOP. DD PACKAGE,TJMAX 150 C JA 200 C W,10 LEAD 3mm 3mm PLASTIC DFN.
TJMAX 150 C JA 43 C W,EXPOSED PAD PIN 11 IS V MUST BE SOLDERED TO PCB. OUTA 1 16 OUTD,OUTA 1 16 OUTD,INA 2 15 IND,INA 2 15 IND. INA 3 14 IND,INA 3 14 IND,V 4 13 V 17,INB 5 12 INC. INB 5 12 INC,B C INB 6 11 INC,INB 6 11 INC,OUTB 7 10 OUTC. OUTB 7 10 OUTC,GN PACKAGE DHC PACKAGE, 16 LEAD PLASTIC SSOP NARROW 16 LEAD 5mm 3mm PLASTIC DFN.
TJMAX 150 C JA 110 C W TJMAX 150 C JA 43 C W,EXPOSED PAD PIN 17 IS V MUST BE SOLDERED TO PCB. 2 For more information www linear com LTC6087,LTC6087 LTC6088. ORDER INFORMATION,http www linear com product LTC6087 X orderinfo. LEAD FREE FINISH TAPE AND REEL PART MARKING PACKAGE DESCRIPTION TEMPERATURE RANGE. LTC6087CDD PBF LTC6087CDD TRPBF LCTX 10 Lead 3mm 3mm Plastic DFN 40 C to 85 C. LTC6087HDD PBF LTC6087HDD TRPBF LCTX 10 Lead 3mm 3mm Plastic DFN 40 C to 125 C. LTC6087CMS8 PBF LTC6087CMS8 TRPBF LTCTY 8 Lead Plastic MSOP 40 C to 85 C. LTC6087HMS8 PBF LTC6087HMS8 TRPBF LTCTY 8 Lead Plastic MSOP 40 C to 125 C. LTC6088CDHC PBF LTC6088CDHC TRPBF 6088 16 Lead 5mm 3mm Plastic DFN 40 C to 85 C. LTC6088HDHC PBF LTC6088HDHC TRPBF 6088 16 Lead 5mm 3mm Plastic DFN 40 C to 125 C. LTC6088CGN PBF LTC6088CGN TRPBF 6088 16 Lead Plastic SSOP 40 C to 85 C. LTC6088HGN PBF LTC6088HGN TRPBF 6088H 16 Lead Plastic SSOP 40 C to 125 C. Consult LTC Marketing for parts specified with wider operating temperature ranges The temperature grade is identified by a label on the shipping container. For more information on lead free part marking go to http www linear com leadfree. For more information on tape and reel specifications go to http www linear com tapeandreel Some packages are available in 500 unit reels through. designated sales channels with TRMPBF suffix,ELECTRICAL CHARACTERISTICS. The l denotes the specifications which apply over the full specified. temperature range otherwise specifications are at TA 25 C Test conditions are V 3V V 0V VCM 0 5V unless otherwise noted. C SUFFIX H SUFFIX, SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS.
VOS Offset Voltage Note 5 LTC6087MS8 LTC6088GN 330 750 330 750 V. LTC6087DD LTC6088DHC 330 1100 330 1100 V,LTC6087MS8 LTC6088GN l 900 1100 V. LTC6087DD LTC6088DHC l 1350 1600 V, VOS T Input Offset Voltage Drift Note 6 LTC6087MS8 LTC6088GN l 2 5 2 5 V C. LTC6087DD LTC6088DHC l 2 5 2 5 V C, IB Input Bias Current Notes 5 7 Guaranteed by 5V Test 1 1 pA. l 40 500 pA, IOS Input Offset Current Notes 5 7 Guaranteed by 5V Test 0 5 0 5 pA. l 30 150 pA,en Input Noise Voltage Density f 1kHz 12 12 nV Hz.
f 10kHz 10 10 nV Hz,Input Noise Voltage 0 1Hz to 10Hz 2 5 2 5 VP P. in Input Noise Current Density Note 8 f 1Hz 0 56 0 56 fA Hz. Input Common Mode Range l V V V V V,CIN Input Capacitance f 100kHz. Differential Mode 2 7 2 7 pF,Common Mode 4 2 4 2 pF. CMRR Common Mode Rejection Ratio 0V VCM 3V 64 80 64 80 dB. l 63 61 dB, PSRR Power Supply Rejection Ratio VS 2 7V to 5 5V 93 115 93 115 dB. l 90 85 dB, VOUT Output Voltage High Referred to V No Load l 5 15 5 20 mV.
ISOURCE 1mA l 25 50 25 50 mV,ISOURCE 5mA l 120 210 120 230 mV. Output Voltage Low Referred to V No Load l 5 25 5 30 mV. ISINK 1mA l 25 50 25 60 mV,ISINK 5mA l 120 210 120 240 mV. For more information www linear com LTC6087 3,LTC6087 LTC6088. ELECTRICAL, CHARACTERISTICS The l denotes the specifications which apply over the full specified. temperature range otherwise specifications are at TA 25 C Test conditions are V 3V V 0V VCM 0 5V unless otherwise noted. C SUFFIX H SUFFIX, SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS.
AVOL Large Signal Voltage Gain RLOAD 10k 0 5V VOUT 2 5V 500 3000 500 3000 V mV. l 300 30 V mV, ISC Output Short Circuit Current Source and Sink 25 35 25 35 mA. l 21 18 mA,SR Slew Rate AV 1 7 2 7 2 V s, GBW Gain Bandwidth Product fTEST 20kHz RLOAD 50k VCM 1 5V 10 14 10 14 MHz. F0 Phase Margin RL 10k CL 5pF AV 1 VCM VS 2 45 45 Deg. tS Settling Time 0 1 VSTEP 2V AV 1 RL 1k 1 1 s, IS Supply Current per Amplifier No Load 1 05 1 20 1 05 1 20 mA. l 1 05 1 25 1 05 1 35 mA, Shutdown Current per Amplifier Shutdown VSHDNx 0 8V l 0 2 1 0 2 1 A. VS Supply Voltage Range Guaranteed by the PSRR Test l 2 7 5 5 2 7 5 5 V. Channel Separation fS 10kHz 120 120 dB,Shutdown Logic SHDNx High l 2 2 V.
SHDNx Low l 0 8 0 8 V,tON Turn On Time VSHDNx 0 8V to 2V 6 6 s. tOFF Turn Off Time VSHDNx 2V to 0 8V 2 2 s,Leakage of SHDN Pin VSHDNx 0V l 0 1 0 5 0 1 0 5 A. The l denotes the specifications which apply over the full specified temperature range otherwise specifications are at TA 25 C. Test conditions are V 5V V 0V VCM 0 5V unless otherwise noted. C SUFFIX H SUFFIX, SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS. VOS Offset Voltage Note 5 LTC6087MS8 LTC6088GN 330 750 330 750 V. LTC6087DD LTC6088DHC 330 1100 330 1100 V,LTC6087MS8 LTC6088GN l 900 1100 V. LTC6087DD LTC6088DHC l 1350 1600 V, VOS T Input Offset Voltage Drift Note 6 LTC6087MS8 LTC6088GN l 2 5 2 5 V C.
LTC6087DD LTC6088DHC l 2 5 2 5 V C,IB Input Bias Current Notes 5 7 1 1 pA. l 40 500 pA,IOS Input Offset Current Notes 5 7 0 5 0 5 pA. l 30 150 pA,en Input Noise Voltage Density f 1kHz 12 12 nV Hz. f 10kHz 10 10 nV Hz,Input Noise Voltage 0 1Hz to 10Hz 2 5 2 5 VP P. in Input Noise Current Density Note 8 f 1Hz 0 56 0 56 fA Hz. Input Common Mode Range l V V V V V,CIN Input Capacitance f 100kHz.
Differential Mode 2 7 2 7 pF,Common Mode 4 2 4 2 pF. 4 For more information www linear com LTC6087,LTC6087 LTC6088. ELECTRICAL, CHARACTERISTICS The l denotes the specifications which apply over the full specified. temperature range otherwise specifications are at TA 25 C Test conditions are V 5V V 0V VCM 0 5V unless otherwise noted. C SUFFIX H SUFFIX, SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS. CMRR Common Mode Rejection Ratio 0V VCM 5V 70 84 70 84 dB. l 68 66 dB, PSRR Power Supply Rejection Ratio VS 2 7V to 5 5V 93 115 93 115 dB.
l 90 85 dB, VOUT Output Voltage High Referred to V No Load l 5 15 5 20 mV. ISOURCE 1mA l 20 50 20 50 mV,ISOURCE 5mA l 110 190 110 210 mV. Output Voltage Low Referred to V No Load l 5 25 5 30 mV. ISINK 1mA l 20 50 20 60 mV,ISINK 5mA l 110 200 110 220 mV. AVOL Large Signal Voltage Gain RLOAD 10k 0 5V VOUT 4 5V 1000 6000 1000 6000 V mV. l 500 50 V mV, ISC Output Short Circuit Current Source and Sink 28 45 28 45 mA. l 25 22 mA,SR Slew Rate AV 1 7 2 7 2 V s, GBW Gain Bandwidth Product fTEST 20kHz RLOAD 50k VCM 2 5V 10 14 10 14 MHz.
F0 Phase Margin RL 10k CL 5pF AV 1 VCM VS 2 47 47 Deg. tS Settling Time 0 1 VSTEP 2V AV 1 RL 1k 0 8 0 8 s. IS Supply Current per Amplifier No Load 1 05 1 25 1 05 1 25 mA. l 1 05 1 30 1 05 1 40 mA, Shutdown Current per Amplifier Shutdown VSHDNx 1 2V l 2 3 5 2 3 5 A. VS Supply Voltage Range Guaranteed by the PSRR Test l 2 7 5 5 2 7 5 5 V. Channel Separation fS 10kHz 120 120 dB,Shutdown Logic SHDNx High l 3 5 3 5 V. SHDNx Low l 1 2 1 2 V,tON Turn On Time VSHDNx 1 2V to 3 5V 6 6 s. tOFF Turn Off Time VSHDNx 3 5V to 1 2V 2 2 s,Leakage of SHDN Pin VSHDNx 0V l 0 4 1 0 4 1 A. Note 1 Stresses beyond those listed under Absolute Maximum Ratings The LTC6087H LTC6088H are guaranteed to meet specified performance. may cause permanent damage to the device Exposure to any Absolute from 40 C to 125 C. Maximum Rating condition for extended periods may affect device Note 5 ESD electrostatic discharge sensitive device ESD protection. reliability and lifetime devices are used extensively internal to the LTC6087 LTC6088 however. Note 2 A heat sink may be required to keep the junction temperature high electrostatic discharge can damage or degrade the device Use proper. below the absolute maximum This depends on the power supply voltage ESD handling precautions. and the total output current Note 6 This parameter is not 100 tested. Note 3 The LTC6087C LTC6088C are guaranteed functional over the Note 7 This specification is limited by high speed automated test. operating temperature range of 40 C to 85 C The LTC6087H LTC6088H capability See Typical Performance Characteristic curves for actual. are guaranteed functional over the operating temperature range of 40 C performance. to 125 C Note 8 Current noise is calculated from, Note 4 The LTC6087C LTC6088C are guaranteed to meet specified in 2qIB.
performance from 0 C to 70 C The LTC6087C LTC6088C are designed. where q 1 6 10 19 coulombs, characterized and expected to meet specified performance from 40 C to. 125 C but are not tested or QA sampled at these temperatures. For more information www linear com LTC6087 5,LTC6087 LTC6088. TYPICAL PERFORMANCE CHARACTERISTICS, VOS Distribution VOS vs VCM VOS Drift Distribution. LTC6087MS8 22 LTC6087MS8,VS 5V 0 8 VS 5V,10 VCM 0 5V VCM 2 5V. TA 25 C 0 6 18 TA 40 C TO 125 C,PERCENTAGE OF UNITS.
PERCENT OF UNITS,0 6 V 5V 4,0 8 TA 25 C 2,REPRESENTATIVE PARTS. 1 0 7 0 4 0 1 0 2 0 5 0 8 0 0 5 1 1 5 2 2 5 3 3 5 4 4 5 5 2 1 2 0 4 0 4 1 2 2 0 2 8. VOS mV VCM V DISTRIBUTION V C,60878 G01 60878 G02 60878 G03. Input Bias Current vs 0 1Hz to 10Hz Output Voltage. Common Mode Voltage Input Noise Voltage vs Frequency Noise. VS 5V VS 5V VS 5V,90 VCM 2 5V VCM 2 5V,1000 TA 25 C. INPUT NOISE VOLTAGE 1 V DIV,INPUT NOISE VOLTAGE nV Hz. TA 125 C 80,INPUT BIAS CURRENT pA,TA 25 C 40, 0 0 5 1 1 5 2 2 5 3 3 5 4 4 5 5 10 100 1k 10k 100k TIME 1s DIV.
COMMON MODE VOLTAGE V FREQUENCY Hz,60878 G05 60878 G06 60878 G07. Output Voltage Swing vs, Input Noise Current vs Frequency Load Current Supply Current vs Supply Voltage. 500 5 0 1 2,VS 5V PER AMPLIFIER,4 5 VCM 2 5V VCM 0 5V. 1 0 TA 25 C,OUTPUT VOLTAGE SWING V,NOISE CURRENT fA Hz. SUPPLY CURRENT mA,100 1 0 TA 125 C,TA 25 C 0 2,0 5 TA 55 C.
1 10 100 1000 10000 100000 0 1 1 10 100 0 0 5 1 1 5 2 2 5 3 3 5 4 4 5 5 5 5. FREQUENCY Hz LOAD CURRENT mA SUPPLY VOLTAGE V,60878 G04 60878 G08 69878 G09. 6 For more information www linear com LTC6087,LTC6087 LTC6088. TYPICAL PERFORMANCE CHARACTERISTICS, Supply Current vs Temperature Open Loop Gain vs Frequency CMRR vs Frequency. 1 5 80 120 110,PER AMPLIFIER CL 5pF VS 5V,1 4 70 100 100 VCM 2 5V. VCM 0 5V RL 1k,VCM VS 2 90 RL 1k,1 3 60 80 TA 25 C.
TA 25 C 80,SUPPLY CURRENT mA,1 2 VS 5V 50 60,VS 3V GAIN. 1 0 30 20 50,0 6 10 VS 5V 60 0,0 5 20 80 10, 40 25 10 5 20 35 50 65 80 95 110 125 10k 100k 1M 10M 100M 10k 100k 1M 10M 100M. TEMPERATURE C FREQUENCY Hz FREQUENCY Hz,60878 G11 60878 G12. PSRR vs Frequency Output Impedance vs Frequency Small Signal Response. VS 5V VS 5V,90 VCM 2 5V VCM 2 5V,80 POSITIVE TA 25 C 100 TA 25 C. OUTPUT IMPEDANCE,50 SUPPLY 1,10 0 01 60878 G15,VS 5V 200ns DIV.
10 0 001 RL,1k 10k 100k 1M 10M 100M 10k 100k 1M 10M 100M. FREQUENCY Hz FREQUENCY Hz,60878 G13 60878 G14, Small Signal Response Large Signal Response Large Signal Response. 60878 G16 60878 G17,VS 5V 200ns DIV VS 5V 2 s DIV VS 5V 1 s DIV. AV 1 AV 1 AV 1,RL RL RL 1k,For more information www linear com LTC6087 7. LTC6087 LTC6088,TYPICAL PERFORMANCE CHARACTERISTICS.
Disabled Output Impedance, vs Frequency Overshoot vs Capacitive Load Overshoot vs Capacitive Load. 1000000 80 40,VS 5V VS 5V VS 5V,VCM 1V 70 VCM 2 5V 35 VCM 2 5V. 100000 AV 1 AV 1 RS 10 AV 1,OUTPUT IMPEDANCE k,10000 30pF. 1000 RS 50 1k RS 10,40 20 1k RS,100 1k 10k 100k 1M 10M 10 100 1000 10 100 1000. FREQUENCY Hz CAPACITIVE LOAD pF CAPACITIVE LOAD pF. 60878 G21 60878 G22, Total Harmonic Distortion Noise Total Harmonic Distortion Noise.
Channel Separation vs Frequency vs Frequency vs Frequency. VS 5V VS 3V VS 5V,VCM 2 5V VCM 1 5V VCM 2 5V,TA 25 C RL 10k RL 10k. CHANNEL SEPARATON dB,AV 1 VIN 2VP P AV 2 VIN 1VP P. AV 1 VIN 1VP P AV 2 VIN 1VP P,120 AV 1 VIN 1VP P,AV 2 VIN 1VP P. 125 AV 1 VIN 2VP P,AV 2 VIN 1VP P,130 0 001 0 001, 0 01 0 1 1 10 100 0 01 0 1 1 10 100 0 01 0 1 1 10 100. FREQUENCY MHz FREQUENCY kHz FREQUENCY kHz,60878 G23 60878 G24 60878 G25.
Total Harmonic Distortion Noise Total Harmonic Distortion Noise. vs Output Voltage vs Load Resistance,VCM VS 2 AT 1kHz. VS 3V VS 3V,AT 20kHz AT 1kHz VS 5V VS 3V VIN 1VP P. VS 5V VIN 2VP P,0 001 0 001,0 0001 0 0001,0 0 5 1 1 5 2 2 5 3 3 5 4 4 5 5 0 1 1 10 100. OUTPUT VOLTAGE VP P LOAD RESISTANCE TO GROUND k,8 For more information www linear com LTC6087. LTC6087 LTC6088,PIN FUNCTIONS, OUT Amplifier Output SHDNA Shutdown Pin of Amplifier A active low and only.
IN Inverting Input available with the LTC 6087DD An internal current source. pulls the pin to V when floating,IN Noninverting Input. SHDNB Shutdown Pin of Amplifier B active low and only. V Positive Supply available with the LTC 6087DD An internal current source. V Negative Supply pulls the pin to V when floating. NC Not internally connected,Exposed Pad Connected to V. APPLICATIONS INFORMATION, GN package With fine PCB design rules you can also. Rail to Rail Input provide a guard ring around the inputs. The input stage of LTC6087 LTC6088 combines both PMOS For example in high source impedance applications such. and NMOS differential pairs extending its input common as pH probes photo diodes strain gauges et cetera the. mode voltage to both positive and negative supply voltages low input bias current of these parts requires a clean. At high input common mode range the NMOS pair is on board layout to minimize additional leakage current into a. At low common mode range the PMOS pair is on The high impedance signal node A mere 100G of PC board. transition happens when the common voltage is between resistance between a 5V supply trace and input trace near. 1 3V and 0 9V below the positive supply ground potential adds 50pA of leakage current This leak. age is far greater than the bias current of the operational. Achieving Low Input Bias Current amplifier A guard ring around the high impedance input. The DD and DHC packages are leadless and make contact traces driven by a low impedance source equal to the. to the PCB beneath the package Solder flux used during input voltage prevents such leakage problems The guard. the attachment of the part to the PCB can create leakage ring should extend as far as necessary to shield the high. current paths and can degrade the input bias current per impedance signal from any and all leakage paths Figure. formance of the part All inputs are susceptible because 1 shows the use of a guard ring in a unity gain configura. the backside paddle is connected to V internally As the tion In this case the guard ring is connected to the output. input voltage or V changes a leakage path can be formed and is shielding the high impedance noninverting input. and alter the observed input bias current For lowest bias from V Figure 2 shows the inverting gain configuration. current use the LTC6087 LTC6088 in the leaded MSOP. NO SOLDER MASK NO LEAKAGE LTC6087 R,OVER THE GUARD RING CURRENT IN IN. CURRENT GND,RING 60878 F01 60878 F02, Figure 1 Sample Layout Unity Gain Configuration Using Guard Figure 2 Sample Layout Inverting Gain Configuration Using.
Ring to Shield High Impedance Input from Board Leakage Guard Ring to Shield High Impedance Input from Board Leakage. For more information www linear com LTC6087 9,LTC6087 LTC6088. APPLICATIONS INFORMATION,Rail to Rail Output 10k 10k. The output stage of the LTC6087 LTC6088 swings within 5V. 30mV of the supply rails when driving high impedance. loads in other words when no DC load current is present 10k. DD PACKAGE, See the Typical Performance Characteristics for curves of INA SHDN. output swing versus load current The class AB design of 10k. the output stage enables the op amp to supply load cur. rents which are much greater than the quiescent supply 10k OUT. current For example the room temperature short circuit 5V 10pF. current is typically 45mA 10k,INB SEL 5V OUT INA,Capacitive Load SEL 0V OUT 1NB. LTC6087 LTC6088 can drive capacitive load up to 100pF in. unity gain The capacitive load driving capability increases 5V SHDN. as the amplifier is used in higher gain configurations A SEL. small series resistance between the output and the load NC7SZ04 OR. EQUIVALENT, further increases the amount of capacitance the amplifier 60878 F03.
can drive Figure 3 Inverting Amplifier with Muxed Output. SHDN Pins Noise, Pins 5 and 6 are used for power shutdown when the In the frequency region above 1kHz the LTC6087 LTC6088. LTC6087 is in the DD package If they are floating internal shows good noise voltage performance In this region. current sources pull Pins 5 and 6 to V and the amplifiers noise can be dominated by the total source resistance of. operate normally In shutdown the amplifier output is the particular application Specifically these amplifiers. high impedance and each amplifier draws less than 5 A exhibit the noise of a 10k resistor meaning it is desirable. current This feature allows the part to be used in muxed to keep the source and feedback resistance at or below. output applications as shown in Figure 3 this value i e RS RG RFB 10k Above this total source. impedance the noise voltage is dominated by the resistor. At low frequency noise current can be estimated from the. The LTC6087 LTC6088 has reverse biased ESD protection expression in 2qIB where q 1 6 10 19 coulombs. diodes on all inputs and outputs as shown in the Simplified Equating 4kTR f and R 2qIB f shows that for source. Schematic If these pins are forced beyond either supply resistor below 50G the amplifier noise is dominated by. unlimited current will flow through these diodes If the the source resistance Noise current rises with frequency. current is transient and limited to one hundred milliamps See the curve Noise Current vs Frequency in the Typical. or less no damage to the device will occur Performance Characteristics section. The amplifier input bias current is the leakage current of. these ESD diodes This leakage is a function of the tem. perature and common mode voltage of the amplifier as. shown in the Typical Performance Characteristics,10 For more information www linear com LTC6087. LTC6087 LTC6088,SIMPLIFIED SCHEMATIC,V D4 VBIAS M5 V. M1 M2 M6 M7 OUT,GENERATION V,NOTE SHDN IS ONLY AVAILABLE M3 M4 M9. V IN THE DFN10 PACKAGE,V 60878 SS,PACKAGE DESCRIPTION.
Please refer to http www linear com product LTC6087 packaging for the most recent package drawings. MS8 Package,8 Lead Plastic MSOP,Reference LTC DWG 05 08 1660 Rev G. 3 00 0 102,0 889 0 127 118 004 0 52,035 005 NOTE 3 0205. 3 20 3 45 3 00 0 102,201 4 90 0 152,MIN 126 136 DETAIL A 118 004. 0 254 193 006,GAUGE PLANE,0 42 0 038 0 65,0165 0015 0256 1 2 3 4. TYP BSC 0 53 0 152,021 006 1 10 0 86,RECOMMENDED SOLDER PAD LAYOUT 043 034.
DETAIL A MAX REF,PLANE 0 22 0 38 0 1016 0 0508,009 015 004 002. TYP 0 65 MSOP MS8 0213 REV G, 1 DIMENSIONS IN MILLIMETER INCH 4 DIMENSION DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSIONS. 2 DRAWING NOT TO SCALE INTERLEAD FLASH OR PROTRUSIONS SHALL NOT EXCEED 0 152mm 006 PER SIDE. 3 DIMENSION DOES NOT INCLUDE MOLD FLASH PROTRUSIONS OR GATE BURRS 5 LEAD COPLANARITY BOTTOM OF LEADS AFTER FORMING SHALL BE. MOLD FLASH PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED 0 102mm 004 MAX. 0 152mm 006 PER SIDE,For more information www linear com LTC6087 11. LTC6087 LTC6088,PACKAGE DESCRIPTION, Please refer to http www linear com product LTC6087 packaging for the most recent package drawings. DD Package,10 Lead Plastic DFN 3mm 3mm,Reference LTC DWG 05 08 1699 Rev C.
3 55 0 05 1 65 0 05,2 15 0 05 2 SIDES,RECOMMENDED SOLDER PAD PITCH AND DIMENSIONS. R 0 125 0 40 0 10,3 00 0 10 1 65 0 10,4 SIDES 2 SIDES PIN 1 NOTCH. PIN 1 R 0 20 OR,TOP MARK 0 35 45,SEE NOTE 6 CHAMFER. DD DFN REV C 0310,0 200 REF 0 75 0 05 0 25 0 05,BOTTOM VIEW EXPOSED PAD. 1 DRAWING TO BE MADE A JEDEC PACKAGE OUTLINE M0 229 VARIATION OF WEED 2. CHECK THE LTC WEBSITE DATA SHEET FOR CURRENT STATUS OF VARIATION ASSIGNMENT. 2 DRAWING NOT TO SCALE,3 ALL DIMENSIONS ARE IN MILLIMETERS.
4 DIMENSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE. MOLD FLASH MOLD FLASH IF PRESENT SHALL NOT EXCEED 0 15mm ON ANY SIDE. 5 EXPOSED PAD SHALL BE SOLDER PLATED, 6 SHADED AREA IS ONLY A REFERENCE FOR PIN 1 LOCATION ON THE. TOP AND BOTTOM OF PACKAGE,12 For more information www linear com LTC6087. LTC6087 LTC6088,PACKAGE DESCRIPTION, Please refer to http www linear com product LTC6087 packaging for the most recent package drawings. GN Package,16 Lead Plastic SSOP Narrow 150 Inch,Reference LTC DWG 05 08 1641 Rev B. 045 005 189 196,4 801 4 978,16 15 14 13 12 11 10 9 REF.
254 MIN 150 165,229 244 150 157,5 817 6 198 3 810 3 988. 0165 0015 0250 BSC,RECOMMENDED SOLDER PAD LAYOUT,1 2 3 4 5 6 7 8. 45 0532 0688 004 0098,1 35 1 75 0 102 0 249,0 178 0 249. 016 050 008 012 0250,0 406 1 270 0 203 0 305 0 635 GN16 REV B 0212. NOTE TYP BSC,1 CONTROLLING DIMENSION INCHES,2 DIMENSIONS ARE IN.
MILLIMETERS,3 DRAWING NOT TO SCALE,4 PIN 1 CAN BE BEVEL EDGE OR A DIMPLE. DIMENSION DOES NOT INCLUDE MOLD FLASH MOLD FLASH,SHALL NOT EXCEED 0 006 0 152mm PER SIDE. DIMENSION DOES NOT INCLUDE INTERLEAD FLASH INTERLEAD. FLASH SHALL NOT EXCEED 0 010 0 254mm PER SIDE,For more information www linear com LTC6087 13. LTC6087 LTC6088,PACKAGE DESCRIPTION, Please refer to http www linear com product LTC6087 packaging for the most recent package drawings. DHC Package,16 Lead Plastic DFN 5mm 3mm,Reference LTC DWG 05 08 1706 Rev.
2 20 0 05 2 SIDES,RECOMMENDED SOLDER PAD PITCH AND DIMENSIONS. R 0 115 0 40 0 10,3 00 0 10 1 65 0 10,2 SIDES 2 SIDES. PIN 1 PIN 1,TOP MARK NOTCH,SEE NOTE 6,DHC16 DFN 1103. 0 200 REF 0 75 0 05 0 25 0 05,BOTTOM VIEW EXPOSED PAD. 1 DRAWING PROPOSED TO BE MADE VARIATION OF VERSION WJED 1 IN JEDEC. PACKAGE OUTLINE MO 229,2 DRAWING NOT TO SCALE,3 ALL DIMENSIONS ARE IN MILLIMETERS.
4 DIMENSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE. MOLD FLASH MOLD FLASH IF PRESENT SHALL NOT EXCEED 0 15mm ON ANY SIDE. 5 EXPOSED PAD SHALL BE SOLDER PLATED, 6 SHADED AREA IS ONLY A REFERENCE FOR PIN 1 LOCATION ON THE. TOP AND BOTTOM OF PACKAGE,14 For more information www linear com LTC6087. LTC6087 LTC6088,REVISION HISTORY Revision history begins at Rev C. REV DATE DESCRIPTION PAGE NUMBER,C 7 12 Corrected Supply Current value 1. Provided VCM condition for GBW specification 4 5, D 6 17 Provided VCM condition for Phase Margin specification 4 5.
Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However no responsibility is assumed for its use Linear Technology Corporation makes no representa. tion that the interconnection information,of its circuits www linear com LTC6087. as described herein will not infringe on existing patent rights.


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System Center 2012 R2 virtual labs Evaluation resources for System Center 2012 R2 Benefits System Center enables the Microsoft Cloud OS by delivering unified management across on-premises, service provider, and Microsoft Azure environments. Application focused System Center enables easy workload portability between Windows Server and

Calculus - math.tamu.edu

Calculus math tamu edu

Calculus! The invention of Calculus must be considered one of the greatest achievements of mankind. Though it, all of dynamical physics, electricity, magnitism, and most of the other scientific aspects of our life, have been derived and ex-plained. Because of it, many ancient superstitions have been debunked. Because of its success, the rigor ...

THE HONOURABLE COMPANY OF MASTER MARINERS

THE HONOURABLE COMPANY OF MASTER MARINERS

The Nautical Institute is the Maritime Professional organisation with global credentials, which has been appointed by the HCMM to undertake the administrative, auditing and vetting functions associated with applications for Chartered Master Mariner status. The Institute is a non-governmental organisation (NGO) with consultative status at the

JOHN M. RAY - TownNews

JOHN M RAY TownNews

John M. Ray, PhD Fort Worth, ... The principled performance of service in the public safety interest. ... Aircraft Owners and Pilots Association ...