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IS31LT3948-GRLS4-TR

IS31LT3948-GRLS4-TR

  • 厂商:

    LUMISSIL

  • 封装:

    SOP8_150MIL

  • 描述:

    IC LED DVR PFM MODE BOOST 8SOIC

  • 数据手册
  • 价格&库存
IS31LT3948-GRLS4-TR 数据手册
IS31LT3948 PFM MODE BOOST LED DRIVER WITH THE EXTERNAL NMOS February 2015 GENERAL DESCRIPTION FEATURES The IS31LT3948 is a PFM step-up DC-DC converter designed for driving the white LED arrays for large size LCD panel backlighting applications. It can deliver stable constant output current from a few milliamps up to 2A, programmed via an external resistor.   The IS31LT3948 utilizes a control scheme in which the output is automatically adjusted to the optimum output voltage for the system, maximizing the efficiency. Furthermore, the control scheme is inherently stable removing the need to provide additional loop compensation.       The device features external PWM dimming, which allows the flexible control of the back-lighting luminance. The IS31LT3948 has a wide input voltage range from 5V to 100V (Note). An integrated OVP circuit protects the chip and the system even under no-load conditions. The chip is assembled in SOP-8 package. It operates from 5V to 100V over two temperature ranges of -40°C to +85°C and -40°C to +125°C. Note: The IS31LT3948 has an internal 5V shunt regulator connected to the VCC pin. A dropping resistor must be connected between the VCC pin and VIN to limit current flow. VIN voltages above 100V are allowed but care must be taken to ensure that the output voltage remains greater than VIN, and that the NMOS voltage rating is sufficiently large. Wide input voltage range: 5V~100V Constant current output limited only by external component selection (Note) No loop compensation required Internal over-voltage protection Internal over-temperature protection Operating temperature range -40C to +85C (IS31LT3948-GRLS2-TR) Operating temperature range -40C to +125C (IS31LT3948-GRLS4-TR) SOP-8 package Note: The maximum output current is determined by VOUT/VIN ratio as well as the external components. If output current and VOUT/VIN ratio is high, high current components of inductor and NMOS are needed. APPLICATIONS      TV monitor backlighting Notebook Automotive Street lamp LED lighting TYPICAL APPLICATION CIRCUIT Figure 1 Typical Application Circuit   Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 1 IS31LT3948 PIN CONFIGURATIONS Package Pin Configuration (Top View) SOP-8 PIN DESCRIPTIONS No. Pin Description 1 VCC Positive power supply input pin. Internally clamped at 5V (Typ.). 2 TOFF Off time setting pin. An external resistor connected to this pin forms an RC discharge path to generate a constant minimum off time of the NMOS. 3 ADJ Enable and input peak current control pin. Pulled up to 4.5V internally to set VCS_TH =0.24V when ADJ is floating. If VADJ2.4V, VCS_TH =0.24V. Note: During the start up (VCC voltage is rising), ADJ must not be connected to low (recommended floating). 4 GND Ground. 5 GATE Driver’s output for the gate of the external NMOS. 6 CS Current sense input for the boost, peak current control loop. 7 FB Feedback voltage input pin. Used to regulate the current of LEDs by keeping VFB=0.3V. 8 OVP Overvoltage protection input pin, if the voltage of OVP exceed 1V, gate will always shutdown. Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 2 IS31LT3948 ORDERING INFORMATION Industrial Range: -40°C to +85°C Order Part No. Package QTY/Reel IS31LT3948-GRLS2-TR SOP-8, Lead-free 2500 Part No. Rules IS (ISSI Prefix) 31 (Product Family) - Analog and mix signal LT (Product Type) - Lighting LED driver 3948 (Part Number) - 3948 GR (Package Code) - SOP L (Solder Type) - Lead-free (RoHS compliant) S2 (Temperature Grade) - Industrial temperature (-40°C ~ +85°C) TR (Packing Option) - Tape & Reel Industrial Range: -40°C to +125°C Order Part No. Package QTY/Reel IS31LT3948-GRLS4-TR SOP-8, Lead-free 2500 Part No. Rules IS (ISSI Prefix) 31 (Product Family) - Analog and mix signal LT (Product Type) - Lighting LED driver 3948 (Part Number) - 3948 GR (Package Code) - SOP L (Solder Type) - Lead-free (RoHS compliant) S4 (Temperature Grade) - Industrial temperature (-40°C ~ +125°C) TR (Packing Option) - Tape & Reel Copyright © 2015 Integrated Silicon Solution, Inc. All rights reserved. ISSI reserves the right to make changes to this specification and its products at any  time without notice. ISSI assumes no liability arising out of the application or use of any information, products or services described herein. Customers are  advised to obtain the latest version of this device specification before relying on any published information and before placing orders for products.  Integrated Silicon Solution, Inc. does not recommend the use of any of its products in life support applications where the failure or malfunction of the  product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not  authorized for use in such applications unless Integrated Silicon Solution, Inc. receives written assurance to its satisfaction, that:  a.) the risk of injury or damage has been minimized;  b.) the user assume all such risks; and  c.) potential liability of Integrated Silicon Solution, Inc is adequately protected under the circumstances Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 3 IS31LT3948 ABSOLUTE MAXIMUM RATINGS VCC to GND CS, ADJ,GATE,TOFF,OVP,FB VCC Max. input current Maximum operating junction temperature, TJMAX Storage temperature range, TSTG Operating temperature, TA = TJ ESD (HBM) ESD (CDM) -0.3V to 6.0V -0.3V to 6.0V 10mA 150°C -65°C ~ +150°C -40°C ~ +85°C, IS31LT3948-GRLS2-TR -40°C ~ +125°C, IS31LT3948-GRLS4-TR 2kV 1kV Note: Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other condition beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. ELECTRICAL CHARACTERISTICS Unless otherwise specified, VIN=10V, RIN=10k, ADJ floating, TA=25°C. ○ Parameter range based on TA = -40°C ~ +125°C (Note 1) The symbol in the table means these parameters are only available in the above temperature range. Symbol Parameter Conditions VIN Input voltage Supply voltage connected to VCC via a appropriate resistor (Note 2) VCC VCC clamp voltage RIN=10k Undervoltage threshold VCC rising VUVLO VUVLO_HYS Tem. Min. Typ. 5 ○ ○ Max. Unit 100 V 4.3 5 5.6 4.1 5 5.8 2.2 2.7 3.0 2.0 2.7 3.2 Undervoltage threshold hysteresis 300 V V mV 400 500 400 700 50 75 50 145 215 240 265 202 240 275 Quiescent supply current VCC= VCC clamp voltage Quiescent supply current when VCC undervoltage VCC=2.5V VCS_TH Peak current sense threshold VADJ=5V tBLANK Peak current sense blank interval VCS=VCS_TH+50mV 500 ns Fixed turn-off interval REXT=250k 10 µs ICC tOFF Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 ○ ○ ○ µA µA mV 4 IS31LT3948 ELECTRICAL CHARACTERISTICS (CONTINUE) Unless otherwise specified, VIN=10V, RIN=10k, ADJ floating, TA=25°C. ○ Parameter range based on TA = -40°C ~ +125°C (Note 1) The symbol in the table means these parameters are only available in the above temperature range. Symbol Parameter Conditions Tem. Min. Typ. Max. Unit Peak current control low threshold 0.5 V VADJ Peak current control high threshold 2.4 V TSD Thermal shutdown threshold 150 °C TSD_HYS Thermal shutdown hysteresis 20 °C IS31LT3948-GRLS2-TR VFB_TH Feedback voltage threshold Overvoltage input threshold 300 310 292 300 310 285 300 315 0.9 1.0 1.1 IS31LT3948-GRLS4-TR ○ VOVP_TH 290 mV V Note 1: Production testing of the device is performed at 25°C. Functional operation of the device and parameters specified over temperature range, are guaranteed by design, characterization and process control. Note 2: VIN is the input voltage. When VIN≤5V, connect input voltage directly to VCC. When VIN>5V, input voltage should be connected to VCC pin via an appropriately valued resistor. Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 5 IS31LT3948 TYPICAL PERFORMANCE CHARACTERISTICS 750 400 VOUT = 40V RCS = 0.06Ω RFB = 0.425Ω 390 Output Current (mA) Output Current (mA) 725 700 675 650 380 VOUT = 40V RCS = 0.12Ω RFB = 0.857Ω 370 360 350 340 330 320 625 310 600 10 12 14 16 18 20 22 24 26 28 300 10 30 12 14 16 Supply Voltage vs. Output Current Figure 3 95 VOUT = 40V RCS = 0.06Ω RFB = 0.425Ω 95 24 26 28 30 28 30 Supply Voltage vs. Output Current Efficiency (%) 85 80 85 80 75 75 70 10 VOUT = 40V RCS = 0.12Ω RFB = 0.857Ω 90 90 Efficiency (%) 22 100 100 12 14 16 18 20 22 24 26 28 70 10 30 12 14 Figure 4 16 18 20 22 24 26 Supply Voltage (V) Supply Voltage (V) Supply Voltage vs. Efficiency Figure 5 Supply Voltage vs. Efficiency 400 750 VIN = 12V RCS = 0.06Ω RFB = 0.425Ω 390 Output Current (mA) 725 Output Current (mA) 20 Supply Voltage (V) Supply Voltage (V) Figure 2 18 700 675 650 380 VIN = 12V RCS = 0.12Ω RFB = 0.857Ω 370 360 350 340 330 320 625 310 600 20 25 30 35 40 45 300 20 25 Output Voltage vs. Output Current Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 35 40 45 Output Voltage (V) Output Voltage (V) Figure 6 30 Figure 7 Output Voltage vs. Output Current 6 IS31LT3948 100 100 VIN = 12V RCS = 0.06Ω RFB = 0.425Ω 95 95 90 Efficiency (%) Efficiency (%) 90 85 80 75 70 VIN = 12V RCS = 0.12Ω RFB = 0.857Ω 85 80 75 20 25 30 35 40 70 45 20 25 30 Output Voltage (V) Figure 8 Output Voltage vs. Efficiency Figure 9 45 Output Voltage vs. Efficiency 400 VIN = 12V RCS = 0.06Ω RFB = 0.68Ω fPWM = 200Hz,500Hz,1kHz With external NMOS PWM Dimming 600 500 400 300 300 250 200 150 200 100 100 50 0 0 10 20 30 40 50 VIN = 12V RCS = 0.12Ω RFB = 0.32Ω fPWM = 200Hz,500Hz,1kHz With external NMOS PWM Dimming 350 Output Current(mA) 700 Output Current(mA) 40 Output Voltage (V) 800 60 70 80 90 0 100 0 10 20 30 Figure 10 PWM Duty Cycle vs. Output Current Figure 11 500 450 50 60 70 80 90 100 PWM Duty Cycle vs. Output Current 5.5 VIN = 5V RIN = 0Ω 5.4 5.3 350 5.2 VCC Voltage (V) 400 300 250 200 150 5 4.9 4.8 4.7 50 4.6 -25 -10 5 20 35 50 65 80 95 110 125 VIN = 12V RIN = 12kΩ 5.1 100 0 -40 40 PWM Duty Cycle(%) PWM Duty Cycle(%) Supply Current (µA) 35 4.5 -40 -25 -10 5 Temperature (°C) Figure 12 Temperature vs. Supply Current Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 20 35 50 65 80 95 110 125 Temperature (°C) Figure 13 Temperature vs. VCC 7 IS31LT3948 330 fPWM = 500Hz ILED = 450mA With external NMOS PWM dimming VIN = 24V VFB Voltage (mV) 320 310 ILED 200mA/Div 300 290 280 270 -40 VPWM 2V/Div -25 -10 5 20 35 50 65 80 95 Temperature (°C) Figure 14 Temperature vs. VFB 110 125 Time (10µs/Div) Figure 15 Output Current vs. VPWM on Rising Time fPWM = 500Hz ILED = 450mA With external NMOS PWM dimming ILED 200mA/Div VPWM 2V/Div Time (10µs/Div) Figure 16 Output Current vs. VPWM on Falling Time Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 8 IS31LT3948 FUNCTIONAL BLOCK DIAGRAM Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 9 IS31LT3948 APPLICATION INFORMATION INTERNAL 5V REGULATOR LED CURRENT CONTROL The IS31LT3948 includes an internal shunt regulator of 5V (Typ.) connected to the VCC pin. When the input voltage is higher than 5V, connect VCC to VIN using an appropriately valued, current limiting resistor. The regulator maintains a 5V power supply for the internal NMOS switch gate driver and the internal control circuitry. In applications where the input voltage is 5V, connect the input voltage directly to VCC. When VCC is connected directly to VIN, VIN may not exceed 5V. Bypass the VCC pin using a low ESR capacitor (recommended 10µF ceramic capacitor) to provide a high frequency path to GND. IS31LT3948 regulates the LED current by sensing the voltage across an external sense resistor in series with the LEDs. The voltage is sensed via the FB pin where the internal feedback reference voltage is 0.3V (Typ.). The LED current can be set from following equation easily. The current required by IS31LT3948 is 0.4mA (Typ.) plus the switching current of the external switch. The switching frequency of the external NMOS affects the amount of current required, as does the NMOS’s gate charge requirement (found on the NMOS data sheet). SETTING THE OVER VOLTAGE PROTECTION I IN  0.4mA  QG  f S (1) Where fS is the switching frequency and QG is the external NMOS gate charge. UNDER VOLTAGE LOCKOUT IS31LT3948 features an under voltage lockout threshold of 2.7V (Typ.) with a hysteresis of 300mV. The chip is disabled when VCC is lower than 2.4V and enabled when VCC exceeds 2.7V. I OUT  0.3 RFB In order to have an accurate LED current, precision resistors are required (1% is recommended). The open string protection is achieved through the over voltage protection (OVP). In some cases, an LED string failure results in a feedback voltage that is always zero. If this happens, the part then keeps boosting the output voltage higher and higher. If the output voltage reaches the programmed OVP threshold, the protection will be triggered and stop the switching action. To make sure that the circuit functions properly, the OVP setting resistor divider must be set with an appropriate value. The recommended VOVP point is about 1.2 times or 5V (choose the larger one) higher than the output voltage for normal operation. VOVP  VOVP _ TH  STEP-UP CONVERTER IS31LT3948’s step-up converter uses a peak current mode topology wherein the CS pin voltage determines the peak current in the inductor of the converter and hence the duty cycle of the GATE switching waveform. The basic loop uses a pulse from an internal oscillator to set an RS flip-flop and turn on the external power NMOS. After the blanking time, the inductor current is sensed during the GATE on period by a sense resistor, RCS, in the source of the external power NMOS. The current increases in the NMOS and inductor until the voltage across the sense resistor reaches the CS threshold, at which time NMOS is turned off. Once the NMOS is turned off, the inductor reverses polarity, providing the voltage boost, and the current of inductor will decrease until the FB pin voltage drops below internal reference voltage and the NMOS is then turned on again. This operation repeats each cycle. Note, in the case where the FB pin voltage does not exceed the FB reference voltage of 0.3V, such as at start-up, the NMOS will remain off for the programmed minimum tOFF time, then the NMOS is switched on again. Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 (2) R4  R5 R5 (3) Where, VOVP_TH is 1V, and VOVP is the output voltage OVP level. DIMMING CONTROL There are two methods for dimming. 1) External NMOS PWM dimming: Figure 17 External PWM Dimming When the PWM input is high (VH>2.4V), M2 is on and IS31LT3948 operates normally to regulate the output current. When PWM is low logic (VLIPEAK_IN V1(NMOS) >VOVP Lower RDS_ON NMOS can improve the converter efficiency. The recommended NMOS rating current is 5 times (or higher) to the input peak current (IPEAK_IN). Choose 13N10L as M1. The average and peak current of diode must exceed the output average current and input peak current. The diode’s maximum reverse voltage rating must exceed the over voltage protection of the application. Choose SS310 as D1. 6. R4, R5 to Set OVP Set VOVP  VOUT  5V  45V VOVP  VOVP _ TH  R4  R5 R5 Choose R5=10kΩ, then R4 = 470kΩ. Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 15 IS31LT3948 CLASSIFICATION REFLOW PROFILES Profile Feature Pb-Free Assembly Preheat & Soak Temperature min (Tsmin) Temperature max (Tsmax) Time (Tsmin to Tsmax) (ts) 150°C 200°C 60-120 seconds Average ramp-up rate (Tsmax to Tp) 3°C/second max. Liquidous temperature (TL) Time at liquidous (tL) 217°C 60-150 seconds Peak package body temperature (Tp)* Max 260°C Time (tp)** within 5°C of the specified classification temperature (Tc) Max 30 seconds Average ramp-down rate (Tp to Tsmax) 6°C/second max. Time 25°C to peak temperature 8 minutes max. Figure 22 Classification Profile Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 16 IS31LT3948 PACKAGE INFORMATION SOP-8 Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 17 IS31LT3948 LAND PATTERN Note: 1. Land pattern complies to IPC-7351. 2. All dimensions in MM. Integrated Silicon Solution, Inc. – www.issi.com Rev. D, 01/21/2015 18
IS31LT3948-GRLS4-TR 价格&库存

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