TSM102I ,DUAL OPERATIONAL AMPLIFIERABSOLUTE MAXIMUM RATINGSSymbol Parameter Value UnitVCC Supply Voltage 36 VV Differential Input Volt ..
TSM102ID ,DUAL OP-AMP DUAL COMPARATOR & ADJUSTABLE VOLTAGE REFERENCEELECTRICAL CHARACTERISTICS+ -V = 5V, V = 0V, T = 25°C (unless otherwise specified) CCCC ambSym ..
TSM102IDT ,DUAL OP-AMP DUAL COMPARATOR & ADJUSTABLE VOLTAGE REFERENCETSM102/AVOLTAGE AND CURRENT CONTROLLER OPERATIONAL AMPLIFIERS■ LOW SUPPLY CURRENT : 200μA/am ..
TSM102IN ,DUAL OP-AMP DUAL COMPARATOR & ADJUSTABLE VOLTAGE REFERENCETSM102/AVOLTAGE AND CURRENT CONTROLLER OPERATIONAL AMPLIFIERS■ LOW SUPPLY CURRENT : 200μA/am ..
TSM102IN ,DUAL OP-AMP DUAL COMPARATOR & ADJUSTABLE VOLTAGE REFERENCEELECTRICAL CHARACTERISTICS+ -V = 5V, V = 0V, T = 25°C (unless otherwise specified) CCCC ambSym ..
TSM102IPWR ,Dual Opamp, Dual Comparator with Voltage Reference 16-TSSOP -40 to 85FEATURES APPLICATIONS• Switch-Mode Power Supplies• OPERATIONAL AMPLIFIERS• Battery Chargers– Low Su ..
UC2823ADW ,High Speed PWM Controllermaximum ratings” may cause permanent damage to the device. These are stress ratings only, andfuncti ..
UC2823ADWTR ,High Speed PWM Controller UC2825A, UC2825B, UC3825A, UC3825B SLUS334E − AUGUST 1995 − REVISED SEPTEMBER 2010HIGH-SPEED PWM C ..
UC2823AN ,High Speed PWM ControllerSLUS334E − AUGUST 1995 − REVISED SEPTEMBER 2010These devices have limited built-in ESD protection. ..
UC2823BDW ,High Speed PWM Controller UC2825A, UC2825B, UC3825A, UC3825BSLUS334E − AUGUST 1995 − REVISED SEPTEMBER 2010TERMINAL FUNCTION ..
UC2823BDW ,High Speed PWM ControllerSLUS334E − AUGUST 1995 − REVISED SEPTEMBER 2010These devices have limited built-in ESD protection. ..
UC2823DW ,High Speed PWM Controllerw vnweDem" Unitrode Products'ii) from TexaslnstrumentsHigh Speed PWM Controller
TSM102AI-TSM102AIN-TSM102I
DUAL OPERATIONAL AMPLIFIER
DIP16(Plastic Package)
OPERATIONAL AMPLIFIERS. LOW SUPPLYCURRENT: 200μA/amp.. MEDIUM SPEED: 2.1MHz. LOW LEVEL OUTPUT VOLTAGE CLOSE TO
VCC-: 0.1V typ.. INPUT COMMON MODE VOLTAGE RANGE
INCLUDES GROUND
COMPARATORS. LOW SUPPLYCURRENT: 200μA/amp.
(VCC= 5V). INPUT COMMON MODE VOLTAGE RANGE
INCLUDES GROUND. LOW OUTPUT SATURATION VOLTAGE:
250mV(Io= 4mA)
REFERENCE. ADJUSTABLE OUTPUT VOLTAGE:
Vrefto 32V. SINK CURRENT CAPABILITY:1to 100mA. 1% and 0.4% VOLTAGE PRECISION. LACTH-UP IMMUNITY
DESCRIPTIONThe TSM102isa monolithicIC that includes two
op-amps, two comparators anda precision voltage
reference. This deviceis offering space and cost
savingin manyapplicationslike power supplyman-
agementor data acquisitionsystems. 13
Output1
Inverting Input1
Non-inverting Input1CC+
Non-inverting Input2
Inverting Input2
Output2
Vref
Output4
InvertingInput
Non-invertingInput4
Non-invertingInput3
InvertingInput3
Output3
CathodeCC-
COMP COMP
PIN CONNECTIONS
SO16(Plastic Micropackage)
DUAL OPERATIONAL AMPLIFIER- DUAL COMP ARATOR
AND ADJUSTABLE VOL TAGE REFERENCE
TSM102/A
ORDER CODES
Part number Temperature Range PackageTSM102I -40oC, +85oC ••
TSM102AI -40oC, +85oC ••
February1999 1/10
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Value UnitVCC Supply Voltage 36 V
Vid Differential Input Voltage 36 V Input Voltage -0.3to +36 V
Toper Operating Free-air Temperature Range -40to +125 oC Maximum Junction Temperature 150 oC
Thermal Resistance Juctionto Ambient (SO package) 150 o C/W
ELECTRICAL CHARACTERISTICSVCC+ =5V, VCC- =0V, Tamb =25oC (unless otherwisespecified)
Symbol Parameter Min Typ Max UnitICC Total Supply Current
Tmin.
0.8 1.5
OPERATIONAL AMPLIFIERS
VCC+ =5V,VCC= GND, R1 connectedto VCC/2,Tamb =25oC (unlessotherwise specified)
Symbol Parameter Min. Typ. Max. Unit
Vio Input Offset Voltage
Tmin.≤ Tamb≤ Tmax. 4.5
DVio Input Offset Voltage Drift 10 μV/oC
Iib Input Bias Current
Tmin.≤ Tamb≤ Tmax. 100
Iio Input OffsetCurrent
Tmin.≤ Tamb≤ Tmax.
Avd Large Signal VoltageGain= 10k, VCC+= 30V,Vo=5Vto 25V
Tmin.≤ Tamb≤ Tmax.
100 V/mV
SVR Supply Voltage Rejection Ratio
VCC=5Vto 30V 80 100
Vicm Input Common Mode Voltage Range
Tmin.≤ Tamb≤ Tmax.
(VCC- )to(VCC+) -1.8
(VCC- )to(VCC+) -2.2
CMR Common Mode Rejection Ratio
VCC+= 30V, Vicm =0Vto (VCC+) -1.8V 90 dB
Isc Output Short Circuit Current
Vid= ±1V,Vo= 2.5V
Source
Sink
VOH High Level Output Voltage RL= 10kΩ
VCC+= 30V
Tmin.≤ Tamb≤ Tmax.
VOL Low Level Output Voltage RL= 10kΩ
Tmin.≤ Tamb≤ Tmax.
100 150
210 Slew Rate
VCC= ±15V= ±10V,RL= 10kΩ,CL= 100pF
1.6 2 V/μs
GBP Gain Bandwidth Product= 10kΩ,CL= 100pF,f= 100kHz
1.4 2.1 MHz Phase Margin= 10kΩ,CL= 100pF 45
Degrees
THD Total Harmonic Distortion
0.05 Equivalent Input Noise Voltage= 1kHz 29Hz Channel Separation 120 dB
TSM102
2/10
COMP ARATORS
VCC+= +5V, VCC= Ground, Tamb =25oC (unless otherwise specified)
Symbol Parameter Min. Typ. Max. Unit
Vio Input Offset Voltage
Tmin.≤ Tamb≤ Tmax.
Iio Input OffsetCurrent
Tmin.≤ Tamb≤ Tmax.
Iib Input Bias Current
Tmin.≤ Tamb≤ Tmax.
IOH High Level Output Current
Vid= 1V, VCC =Vo= 30V
Tmin.≤ Tamb≤ Tmax.
VOL Low Level Output Voltage
Vid= -1V, Isink= 4mA
Tmin.≤ Tamb≤ Tmax.
250 400
Avd Large Signal VoltageGain= 15k, VCC= 15V,Vo=1to 11V 200
V/mV
Isink Output Sink Current
Vid= -1V,Vo= 1.5V
616 mA
Vicm Input Common Mode Voltage Range
Tmin.≤ Tamb≤ Tmax.
VCC+ -1.5
VCC+-2
Vid Differential Input Voltage VCC+ V
tre Response Time- (note1)= 5.1kto VCC+ ,Vref= 1.4V
1.3 μs
trel Large Signal Response Time
Vref= 1.4V,Vi= TTL,R1= 5.1kto VCC+ 300 ns
Note1: The response time specifiedisfor 100mV input step with 5mV overdrive.
For larger overdrive signals, 300nscanbe obtained.
TSM102
3/10
Notes:1. ΔVrefis definedas thedifference betweenthe maximum and minimum values obtained over thefull temperature
range.ΔVref =Vrefmax.-Vrefmin The temperature coefficientis definedasthe slopes(positiveand negative)of thevoltagevs temperature limits whithin
whichthe reference voltage isguaranteed. The dynamic Impedanceis definedas |ZKA|= ΔVKA
ΔIK T2 Temperature
Vrefmax.
Vrefmin.
25 C Temperature
max
2.5V
min
-nppm/ nppm
/ C
VOLTAGE REFERENCE
Symbol Parameter Value Unit
VKA Cathodeto Anode Voltage Vrefto36 V Cathode Current 1to 100 mA
ELECTRICAL CHARACTERISTICS
Tamb =25oC (unless otherwise specified)
Symbol Parameter Min. Typ. Max. Unit
Vref Reference InputVoltage- (figure1)- Tamb =25oC
TSM102, VKA =Vref,IK= 10mA
TSM102A, VKA =Vref,IK= 10mA
ΔVref Reference InputVoltage Deviation Over
Temperature Range- (figure1, note1)
VKA =Vref,IK= 10mA, Tmin.≤ Tamb≤ Tmax. 730
ΔVref
Temperature Coefficientof ReferenceInput Voltage- (note2)
VKA =Vref,IK= 10mA, Tmin.≤ Tamb≤ Tmax.
±22 ±100
ppm/oC
ΔVref
ΔVKA
Ratioof Changein Reference Input Voltageto Changein Cathodeto
Anode Voltage- (figure2)= 10mA, ΔVKA=36to3V -1.1 -2
mV/V
Iref Reference InputCurrent- (figure2)= 10mA,R1= 10kΩ,R2=∞
Tamb =25oC
Tmin.≤ Tamb≤ Tmax.
1.5 2.5
ΔIref Reference InputCurrent Deviation Over
Temperature Range- (figure2)= 10mA,R1= 10kΩ,R2=∞
Tmin.≤ Tamb≤ Tmax.
0.5 1
Imin Minimum Cathode Currentfor Regulation- (figure1)
VKA =Vref 0.5 1
Ioff Off-State Cathode Current- (figure3) 180 500 nA
TSM102
4/10
VKA=Vref(1+R1)+Iref .R1KAref
InputK
Figure1: Test Circuitfor VKA =VrefKAKref
Iref
Input
Figure2: Test Circuitfor VKA >Vref
VKAInput
Ioff 36V
Figure3: Test CircuitforIoff
TSM102
5/10
APPLICA TION NOTER. LIOU Li-Ion BATTERY CHARGER USING TSM102A
This application note explains howto use the
TSM102in an SMPS-type battery charger which
features:. Voltage Control. Current Control. Low Battery Detection and EndOf Charge
Detection- TSM102 PRESENTATION
The TSM102 integratedcircuitincludes two Opera-
tional Amplifiers, two Comparators and one adjust-
able precision Voltage Reference (2.5Vto 36V,
0.4%or 1%).
TSM102 can sustainupto 36V power supply volt-
age. 14+
Vref Cathode-
COMP COMP
TSM102
Figure1: TSM102 Pinout- APPLICATION CONTEXT AND PRINCIPLE OPERATION the battery charging field which requires ever
increasing performancesin more and more re-
duced space, the TSM102Aprovidesan attractive
solutionin termsof PCB area saving, precision and
versatility.
Figure2 shows the secondary sideofa battery
charger (SMPS type) where TSM102Ais usedin
optimised conditions: the two Operational Amplifi-
ers perform current and voltage control, the two
Comparators provide ”Endof Charge” and ”Low
Battery” signals and the Voltage Reference en-
sures precise referenceforall measurements.
The TSM102Ais suppliedby an auxiliary power
supply (forward configuration- D7) regulatedbya
bipolar transistor anda zenerdiodeonits base (Q2
and DZ), and smoothedby the capacitors C3 and
C4. R15 polarizes the baseof the transistor andat
the same time limits the current through the zener
diodeduring regulationmode ofthe auxiliary power
supply.
The current and voltage regulations are made
thanksto the two OperationalAmplifiers.
The first amplifier senses the current flow through
the sense resistor Rs and comparesit witha part the reference voltage (resistor bridge R7, R8,
R9). The second amplifier compares the reference
voltage witha part ofthe charger’s output (resistor
bridge R1, R2, R3).
When eitherof these two operational amplifiers
tendsto lowerits ouput, this linear informationis
propagatedtowards theprimaryside viatwo ORing
diodes (D1, D2) and an optocoupler (D3). The
compensation loopsof these regulation functions
are ensuredby the capacitorsC1 and C2.
TSM102
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