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| Advanced Analog Technology, Inc. AAT1100 Product information presented is current as of publication date. Details are subject to change without notice TRIPLE-CHANNEL PWM CONTROLLER Features Complete PWM Power Control Circuitry Precision ReferenceG 1.25V1% (25 oC) Low Operating VoltageG 2.5V to 7.0V Under-Voltage Lockout Protection Totem Pole Output Output Short Circuit Protection Low Dissipation CurrentG 2.5mA at 500 kHz and 50% Duty Cycle Separate On / Off Control for CH1, CH3 Pair and CH2 (Refer to Function Table) Dead Time ControlG 0 to 100% Wide Operating FrequencyG 50 kHz to 1MHz Minimized External Components General Description The AAT1100 provides an integrated triple-channel pulse-width-modulation (PWM) solution for the power supply of DC-DC system; this device offers system engineer the flexibility to custom-make the power supply circuitry to a specific application. Each channel contains its own error amplifier, PWM comparator, dead-time control (DTC) and output driver. The under-voltage protection, oscillator, short circuit protection and voltage reference circuit are common features of the three channels. The AAT1100 contains two boost circuits (CH1, CH3) and a buck-boost circuit (CH2). DTC can be set to provide 0% to 100% dead-time through a divider network. Soft-Start can be implemented by paralleling the DTC resistor with a capacitor. Two DTC inputs are assigned for CH1, CH3 pair and CH2 individually, and DTC inputs can be used to control on / off operation. In addition, this device can operate from 2.5V to 7.0V supply voltages to achieve efficient operation in low power system. With a minimal number of external components, the AAT1100 offers a simple and cost effective solution. Pin Configuration TOP VIEW IE2 OE 2 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 OE3 IE3 IE1 OE 1 OSC DTC2 DTC13 VREF VDD OUT2 OUT3 OUT1 GND SCP (TSSOP-16 PACKAGE) - xAEWAniN/|-1/2q - - Advanced Analog Technology, Inc. - Page 1 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Function Table Condition DTC13 > 0.3V, DTC2 > 0.3V DTC13 > 0.3V, DTC2 < 0.2V DTC13 < 0.2V, DTC2 > 0.3V DTC13 < 0.2V, DTC2 < 0.2V ON ON Output CH1 "High" "High" ON ON CH2 "Low" "Low" OFF "High" OFF "High" CH3 ON "High" ON "High" OFF "Low" OFF "Low" OFF "Low" OFF "Low" Pin Description Pin No 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Name IE2 OE2 VDD OUT2 OUT3 OUT1 GND SCP VREF DTC13 DTC2 OSC OE1 IE1 IE3 OE3 I/O I I/O I O O O Description Inverting Input Terminal of Error Amplifier 2 (EA2) Output of Error Amplifier 2 (EA2) Supply Voltage Channel 2 Output Channel 3 Output Channel 1 Output Ground I Short Circuit Protection O Reference Voltage Output I Dead-Time Control of Channel 1, 3 (CH1, CH3) I Dead-Time Control of Channel 2 (CH2) I Frequency Setting Capacitor & Resistor Input I/O Output of Error Amplifier 1 (EA1) I Inverting Input Terminal of Error Amplifier 1 (EA1) I Inverting Input Terminal of Error Amplifier 3 (EA3) I/O Output of Error Amplifier 3 (EA3) - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 2 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Absolute Maximum Ratings Characteristics Supply Voltage Input Voltage (IE1, IE2, IE3, DTC13, DTC2) Symbol VDD VI VO Value 8 VDD VDD +0.3 Unit V V Output Voltage Output Current Output Peak Current Source ( t O w Sink ( t w O CH1, CH3 CH2 2s , DutyO 2s , DutyO IO 10%) - 41 / + 21 - 21 / + 41 V mA mA mA o o 10%) Iopeak TC Tstorage +200 - 200 - 20 to + 85 - 45 to + 125 Operating Temperature Range Storage Temperature Range C C Recommended Operating Conditions Supply Voltage, VDD Input Voltage, IE1, IE3 Input Voltage, IE2 Output Voltage Oscillator (OSC) Capacitance Oscillator (OSC) Resistance (Note 1) Oscillator (OSC) Frequency Output Current (CH1, CH3) Output Current, (CHl, CH2) Output Current of Error Amplifier 1, 2 and 3 (EA1, EA1, EA3) Operating Temperature Symbol VDD VI13 Min 2.5 Max 7.0 Unit V 0.95 0.4 0 10 6 50 1.55 1.0 VDD 1,800 8 1,000 - 40 / + 20 - 20 / + 40 V V V pF k[ kHz mA mA A o VI 2 VO C OSC R OSC f OSC I O13 I O2 I OE TC 60 - 20 85 C Note 1: The rise and fall times of oscillator wave form will be equal at OSC resistor ( R OSC ) =7 k theoretically. - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 3 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Electrical Characteristics, VDD = 3.3V ; TC = 25 oC (Unless Otherwise Specified) Oscillator Parameter Test Condition C OSC = 130pF, R OSC = 7 k Min Typ Max Unit Oscillator Frequency Oscillator Output Voltage at High Oscillator Output Voltage at Low Frequency Change with VDD Frequency Change with Temperature Oscillator Output Current Under-Voltage Protection Parameter Upper Threshold Voltage f OSC VOSCH VOSCL f V f T I OSC 400 0.95 0.35 500 1.00 0.40 600 1.05 0.45 kHz V V C OSC = 130pF, R OSC = 7 k C OSC = 130pF, R OSC = 7 k VDD = 2.5V to 7V, C OSC = 130pF, R OSC = 7 k (Note 2) 1 5 - 180 2 10 % % A - 200 - 220 Test Condition VUPH VUPL VHYS Min 2.2 Typ 2.3 Max Unit 2.4 V Lower Threshold Voltage Hysteresis ( VUPH - VUPL ) Short Circuit Protection Control Parameter 2.0 0.1 2.1 0.2 2.2 0.3 V V Input Threshold Voltage Latch Reset Threshold Voltage Short Circuit Detect Threshold Voltage SCP Terminal Source Current Vr1 Vr 2 VR Vr 3 I SCP Test Condition CH1, CH3 CH2 Min 1.10 0.20 Typ 1.15 0.25 Max Unit 1.20 V 0.30 0.8 1.20 - 1.4 1.5 1.25 - 2.0 1.8 1.30 - 2.6 V V A Note 2: The deviation is defined as the difference between the maximum and minimum values obtained over the recommended temperature range (-20 oC to 85 oC). - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 4 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Electrical Characteristics, VDD = 3.3V; TC = 25 oC (Unless Otherwise Specified) (Cont.) Reference Voltage Parameter Reference Voltage Test Conditions I REF = -1mA Min Typ Max Unit 1.237 1.250 1.263 V -2 - 10 - 30 Short Circuit Output Current Input Voltage Regulation Output Regulation Reference Voltage Change with Temperature EA (Error Amplifier) Parameter VREF I OS VRI VRO VR VREF = 0 I REF = -1mA , VDD = 2.5V to 7V I REF = -0.1mA to - 1mA I REF = -1mA (Note 3) mA mV mV mV 2 1 15 5 5 25 Input Offset Voltage Input Bias Current Input Voltage Range Open-Loop Voltage Gain Unity-Gain Bandwidth VIO I IB VIR A VO BW1 VOS + Test Condition CH1,CH3, Unity Gain Min Typ Max Unit 15 10 10 0.95 0.4 60 1 20 20 1.55 1.0 mV nA V dB MHz CH1,CH3, VI13 = 0.95V to 1.55V CH2, VI 2 = 0.4V to 1.0V CH1, CH3 CH2 R OE = 200 k VI = +0.1V , I O = -60A VI = -0.1V , I O = 0.2mA VI = -0.1V , VO = 0.2V VI = +0.1V , VO = 1.2V 1.2 V 0.2 0.2 - 60 Output Voltage Swing VOS - Output Sink Current Output Source Current Input Bias Voltage I OS + I OS - Vr 5 1.0 - 100 mA A CH2, Unity Gain, TC = 25 oC CH2, Unity Gain 678 665 700 700 722 735 mV Note 3: The parameter VR is defined as the difference between the maximum and minimum values obtained over the recommended temperature range (-20 oC to 85 oC). - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 5 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Electrical Characteristics, VDD = 3.3V; TC = 25 oC (Unless Otherwise Specified) (Cont.) Dead-Time Control Parameter Test Condition VDTC13 = 0.35V to 1.05V Min Typ Max Unit Input Bias Current Input Threshold Voltage (DTC 13) Input Threshold Voltage (DTC2) Channel On / Off Threshold Voltage Output Stage Parameter I BDT1/ 3 I BDT 2 V13d100 V2 d 0 V2 d100 Vr 4 200 2 0.3 0.9 0.3 0.9 0.2 0.4 1.0 0.4 1.0 0.25 20 0.5 1.1 0.5 1.1 0.3 nA nA V VDTC 2 = 0.35V to 1.05V Duty = 100%, f OSC = 500kHz Duty = 0%, f OSC = 500kHz Duty = 100%, f OSC = 500kHz V13d 0 Duty = 0%, f OSC = 500kHz V V High-Level Output Voltage Low-Level Output Voltage Rise Time Fall Time Operating Current Parameter VOH VOL t RISE t FALL Test Condition I O = -20mA (CH2) Min Typ Max Unit 2.90 1.9 3.05 2.2 0.2 0.3 130 50 0.4 0.6 V ns ns V I O = -40mA (CH1, CH3) I O = 20mA (CH1, CH3) I O = 40mA (CH2) C L = 1,000pF C L = 1,000pF I DD-OFF Supply Current I DD-ON Test Condition Output "OFF" State Min Typ Max Unit 2.5 3.5 4.0 5.0 mA mA f OSC = 500 kHz, Duty = 50%, No Load - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 6 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Block Diagram E N 13 OE1 IE 1 V r e f = 1 .2 5V EA1 PW M C1 L a tch OUT1 EN2 L a tch OE2 IE 2 V r 5 = 0 .7 V EA2 PW M C2 OUT2 EN 13 L a tch OE3 IE 3 V R E F = 1 . 2 5V EA3 PW M C3 O UT3 O SC V REF V VREF REF O SC UVC UVLO VD D GND UVC UVC D T C 2N L a tc h UVCN SC P R R V r 5 = 0 .7 V VDD 2A V r 3 = 1 .2 5V E N 13 Vr4 = SC P D TC 13 0 .2 5 V OE1 V r 1 = 1 .1 5V OE3 UVCN OE2 V r 2 = 0 . 2 5V DTC2 V r 4 = 0 .2 5 V EN2 UVCN Note: All voltage and current values in block diagram are nominal. - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 7 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Application Circuit V DD V DD V p1 R R C C IE 1 R OE1 L V DD OUT1 Q D Vp1 C V V p3 R R C C IE 3 R O UT3 OE3 DD L D Vp3 Q C A A T1100 V VN2 OE2 R R C C IE 2 R C VREF DD OUT2 Q D Vn2 L C V R EF V REF R D TC 13 O SC SC P C O SC R O SC DTC2 R GND SCP C C - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 8 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Timing Chart V U PH V DD V DD 1 .2 5V V REF O E1 or O E3 O S C + (N ote 4 ) DTC 13 V DD 1 .0V O E1 or O E3 O SC D TC 13 O U T 1 or OUT3 0 .4V Vr1 = 1.15V V D T C 13 VOH 10 0 % o ff VOL V O ( reg ) R egula tion O utp u t 0V Vr 3 SCP 1.25V t scp t scp (S h o rt C ircu it P r otect T im e)= 0 .6 25 * C scp .* 10 6 (sec) 0V T im in g C h a rt for C H 1 o r C H 3 N ote 4 : + O scilla to r w av e fo rm is illustrated as a tria ngle w a ve fo rm . H ow ever it is actu ally d eterm in ed b y tim e co nstan t o f tim in g resistor an d ca p acitor co n nected to O S C term in a l. - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 9 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Timing Chart V U PH VD D VD D 1 .2 5 V VREF DTC2 OE2 O SC D T C 2N OUT2 1 .0 V 0 .4 V DTC2N OE2 O S C + (N o te 4 ) DTC2 D TC 2N Vr 2 = 0.2 5V 0V VO H 1 0 0 % o ff VO L R e g u la tio n O u tp u t 0V - V o(reg) Vr 3 SCP t s c p (S h o r t C ir c u it P r o te c t T im e )= 0 .6 2 5 * C sc p .* 1 0 6 (s e c ) t sc p 1 .2 5 V 0V T im in g C h a r t fo r C H 2 - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 10 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Package Dimension 16-PIN TSSOP - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 11 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Package Dimension (Cont.) SYMBOLS A A1 A2 b C D E E1 e L y DIMENSIONS IN MILLIMETERS MIN 1.05 0.05 -----0.20 -----4.900 6.20 4.30 -----0.50 -----TYP 1.10 0.10 1.00 0.25 0.127 5.075 6.40 4.40 0.65 0.60 -----MAX 1.20 0.15 1.05 0.28 -----5.100 6.60 4.50 -----0.70 0.076 DEMINSIONS IN INCHES MIN 0.041 0.002 -----0.008 -----0.1930 0.244 0.170 -----0.020 -----TYP 0.043 0.004 0.039 0.010 0.005 0.1998 0.252 0.173 0.026 0.024 -----MAX 0.047 0.006 0.041 0.011 -----0.2000 0.260 0.177 -----0.028 0.003 0 o 4 o 8 o 0 o 4 o 8o NOTE: 1. CONTROLLING DIMENSION: MILLIMETERS 2. LEAD FRAME MATERIAL: OLIN C7025/EFTEC 64T 3. DIMENSION "D" DOES NOT INCLUDE MOLD FLASH, TIE BAR BURRS AND GATE BURRS. MOLD FLASH, TIE BAR BURRS AND GATE BURRS SHALL NOT EXCEED 0.006" [0.15 MILLIMETERS] PER END. DIMENSION "E1" DOES NOT INCLUDE INTERLEAD FLASH. INTERLEAD FLASH SHALL NOT EXCEED 0.010" [0.25 MILLIMETERS] PER SIDE. 4. DIMENSION "b" DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBAR PROTRUSION SHALL BE 0.003" [0.08 MILLIMETERS] TOTAL IN EXCESS OF THE "b" DIMENSION AT MAXIMUM MATERIAL CONDITION. DAMBAR CANNOT BE LOCATED ON THE LOWER RADIUS OR THE FOOT. MINIMUM SPACE BETWEEN PROTRUSION AND AN ADJACENT LEAD TO BE 0.0028" [0.07 MILLIMETERS]. 5. TOLERANCE: 0.010 [0.25 MILLIMETERS] UNLESS OTHERWISE SPECIFIED. 6. OTHERWISE DIMENSION FOLLOW ACCEPTABLE SPEC. 7. REFERENCE DOCUMENT: JEDEC SPEC MO-153. - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 12 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Tape and Reel - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 13 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Tape and Reel (Cont.) NOTE: 1. 2. 3. 4. 5. 6. 10 SPROCKET HOLE PITCH CUMULATIVE TOLERANCE 0.2 MILLIMETERS. CAMBER NOT TO EXCEED 1 MILLIMETER IN 100 MILLIMETERS. MATERIAL: ANTI-STATIC BLACK ADVANTEK POLYSTYRENE. A 0 AND B 0 MEASURED ON A PLANE 0.3 MILLIMETERS ABOVE THE BOTTOM OF THE POCKET. K 0 MEASURED FROM A PLANE ON THE INSIDE BOTTOM OF THE POCKET TO THE TOP SURFACE OF THE CARRIER. POCKET POSITION RELATIVE TO SPROCKET HOLE MEASURED AS TRUE POSITION OF POCKET, NOT POCKET HOLE. Part Marking TSSOP16 Top Marking AAT1100 XXXXXX TSSOP16 Back Marking YYWW - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 14 of 15 V 1.0 Advanced Analog Technology, Inc. AAT1100 Ordering Information - - xAEWAniN/|-1/2q - Advanced Analog Technology, Inc. - Page 15 of 15 V 1.0 |
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