General Description The is a low startup current, current mode PWM controller with green-mode power-saving operation. The PWM switching frequency at normal operation is externally programmable and is trimmed to a tight range. The dithering of frequency will improve EMI feature. When the load decreases, the frequency will reduce and when at a very low load, the IC will enter the skip mode to minimize switching loss. About 20kHz frequency switching is able to avoid the audible noise as well as reduce the standby loss. The features a lot of functions such as the Leading-Edge Blanking (LEB) of the current sensing, internal slope compensation and several protection functions including cycle-by-cycle current limit (OCP), VCC Over Voltage Protection (VOVP), OTP, OLP protection. This IC is available in SOT-23-6 and DIP-8 packages. Features Bi-CMOS Process with Excellent Performance Very Low Start-up Current:(< 15µA) Current Mode Control Non-audible-noise Green-mode Control LEB (Leading-edge Blanking) on SENSE Pin Internal Slope Compensation Frequency Fold Back for High Average Efficiency Soft Switching for Reducing EMI Useful Pin Fault Protection: SENSE Pin Floating RI Pin Short to Ground RI Pin Floating FB/Opt-coupler Open/short Comprehensive System Protection Feature: VCC Over Voltage Protection (VOVP) Over Temperature Protection (OTP) Over Load Protection (OLP) Mini Size with Packages Applications Switching AC-DC Adapter/Charger ATX/BTX Auxiliary Power Set-top Box(STB) Power Supply Open Frame Switching Power Supply SOT-23-6 DIP-8 Figure 1. Package Types of 1
Pin Configuration K Package (SOT-23-6) P Package (DIP-8) Pin 1 Dot by Marking GND FB RI 1 6 2 5 3 4 GATE VCC SENSE GATE VCC NC SENSE 1 2 3 4 8 7 6 5 GND FB NC RI Figure 2. Pin Configuration of (Top View) Pin Description Pin Number SOT-23-6 DIP-8 Pin Name Function 1 8 GND Signal ground. Current return for driver and control circuits 2 7 FB Feedback. Directly connected to the opto-coupler 3 5 RI Set the bias current to determine the normal switching frequency 4 4 SENSE Current Sense 5 2 VCC Supply voltage of driver and control circuits 6 1 GATE Gate driver output 3, 6 NC No connection. These pins are not internally connected 2
Functional Block Diagram VCC 5 (2) 15V 8.8V UVLO Internal Bias &VREF O/S Protection 3 (5) RI 35.5V 28V OVP OTP OVP OLP VCC VDD OSC D QB DFF CLK SB 140 OTP Driver 17.5V 6 (1) GATE 0.6V FB 2 (7) 1.1V OLP Line Compensation PWM OCP FOCP GND 1 (8) Soft Start 0.85 V 250ns LEB 4 (4) SENSE A (B) A SOT-23-6 B DIP-8 Figure 3. Functional Block Diagram of 3
Ordering Information - Circuit Type Package K: SOT-23-6 P: DIP-8 G1: Green TR: Tape and Reel Blank: Tube Package Temperature Range Part Number Marking ID Packing Type SOT-23-6 KTR-G1 GHL Tape & Real -40 to 85 o C DIP-8 P-G1 P-G1 Tube BCD Semiconductor's products, as designated with "G1" suffix in the part number, are RoHS compliant and Green. 4
Absolute Maximum Ratings (Note 1) Parameter Symbol Value Unit Power Supply Voltage V CC 30 V Gate Output Current I O 300 ma Input Voltage to FB, SENSE pin V FB, V SENSE -0.3 to 7 V SOT-23-6 250 Thermal Resistance Junction to Ambient θ JA DIP-8 100 o C/W Power Dissipation and Thermal Characteristic, SENSE at T A <25 o P SOT-23-6 500 C D DIP-8 1250 mw Operating Junction Temperature T J -40 to150 o C Storage Temperature Range T STG 150 o C ESD (Human Body Model) 3000 V ESD (Machine Model) 300 V Note 1: Stresses greater than 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 conditions beyond those indicated under "Recommended Operating Conditions" is not implied. Exposure to "Absolute Maximum Ratings" for extended periods may affect device reliability. Recommended Operating Conditions Parameter Symbol Min Max Unit Supply Voltage V CC 10 25 V Ambient Operating Temperature Range T A -40 85 o C 5
Electrical Characteristics V CC =16V, T A =25 o C, unless otherwise specified. Parameter Symbol Conditions Min Typ Max Unit Supply Voltage (VCC Pin) Start-up Current I START-UP V CC =14.8V 5 15 µa Operating Supply Current I CC V FB =0V, C L =1nF, R RI =100kΩ 1 2 3 ma V FB =3V, C L =1nF, R RI =100kΩ 0.65 1.65 2.65 UVLO (on) 13.9 15 16 V UVLO (off) 7.8 8.8 9.8 V VCC OVP 27 28 29 V VCC Clamp I CC =5mA 32 35.5 37 V PWM Section/Oscillator Section Maximum Duty Cycle 70 75 80 % Minimum Duty Cycle 0 Oscillation Frequency R RI =100kΩ 60 65 70 khz Green Mode Frequency R RI =100kΩ 22 khz Frequency Temperature Stability -40 o C to 85 o C 5 % Frequency Voltage Stability V CC =12 to 30V 3 % Frequency Dithering ±6 % Current Sense Section (SENSE Pin) Maximum SENSE Voltage V CS V FB =3.3V, R RI =100kΩ, D=50% 0.800 0.850 0.900 V V FB =3.3V, R RI =100kΩ, D=2.6% 0.65 LEB Time of SENSE R RI =100kΩ 150 250 350 ns Delay to Output 50 150 250 ns Soft-start Time R RI =100kΩ 0.5 ms Feedback Input Section (FB Pin) The Ratio of Input Voltage to Current Sense Voltage 2.5 3 3.5 V/V Input Impedance 3 4.5 6 kω Source Current V FB =0V -0.5-1 -1.5 ma Input Voltage for Zero Duty 1.2 1.5 1.8 V Output Section (GATE Pin) Output Low Level I O =20mA, V CC =12V 1 V Output High Level I O =20mA, V CC =12V 8 V Output Clamping 16 17.5 19 V Rising Time C L =1nF, V CC =13V 120 220 320 ns Falling Time C L =1nF, V CC =13V 30 50 90 ns 6
Electrical Characteristics V CC =16V, T A =25 o C, unless otherwise specified. Parameter Symbol Conditions Min Typ Max Unit Over Temperature Protection Section Shutdown Temperature 140 o C Temperature Hysteresis 20 o C Delay Time Section Delay 1 of Protection OLP, R RI =100kΩ 35 ms Delay 2 of Protection VCC OVP, R RI =100kΩ 25 µs 7
Typical Performance Characteristics Start-up Voltage (V) 15.4 15.2 15.0 14.8 14.6 14.4 14.2 14.0 13.8 13.6-40 -20 0 20 40 60 80 100 120 140 Ambient Temperature ( o C) Shutdown Voltage (V) 9.8 9.6 9.4 9.2 9.0 8.8 8.6 8.4 8.2 8.0 7.8-60 -40-20 0 20 40 60 80 100 120 140 160 Ambient Temperature ( o C) Figure 4. Start-up Voltage vs. Ambient Temperature Figure 5. Shutdown Voltage vs. Ambient Temperature 6.0 4.0 5.5 3.5 5.0 3.0 Start-up Current (µa) 4.5 4.0 3.5 3.0 Operation Current (ma) 2.5 2.0 1.5 1.0 2.5 2.0-40 -20 0 20 40 60 80 100 120 Ambient Temperature ( o C) 0.5 0.0-40 -20 0 20 40 60 80 100 120 140 Ambient Temperature ( o C) Figure 6. Start-up Current vs. Ambient Temperature Figure 7. Operation Current vs. Ambient Temperature 8
Typical Performance Characteristics (Continued) 28.4 28.2 75.0 72.5 70.0 VCC OVP (V) 28.0 27.8 f OSC (khz) 67.5 65.0 62.5 27.6 60.0 57.5 27.4-40 -20 0 20 40 60 80 100 120 140 Ambient Temperature ( o C) 55.0-40 -20 0 20 40 60 80 100 120 140 Ambient Temperature ( o C) Figure 8. VCC OVP vs. Ambient Temperature Figure 9. f OSC vs. Ambient Temperature 9
Operation Description The is specifically designed for off-line AC- DC power supply used in LCD monitor, notebook adapter and battery charger applications. It offers a cost effective solution with a versatile protection function. Start-up Current and UVLO The start-up current of is optimized to realize ultra low current (5µA typical) so that VCC capacitor can be charged more quickly. The direct benefit of low start-up current is the availability of using large startup resistor, which minimizes the resistor power loss for high voltage AC input. An UVLO comparator is included in to detect the voltage on the VCC pin. It ensures that can draw adequate energy from hold-up capacitor during power on. The turn-on threshold is 15V and the turnoff threshold is 8.8V. Oscillator The oscillation frequency is programmed by the value of resistor R1, connected from pin RI to ground. The resistor will make a constant current source to determine the oscillation frequency by charging and discharging an internal capacitor. Normally, RI pin should not be placed where exists too much noise, as the disturbance may make the IC work abnormally. The oscillation frequency can be expressed as: 6500 f ( khz) R1( kω) The recommended oscillation frequency is 50 to 100 khz from the EMI consideration. Current Sense Comparator and PWM Latch The operates as a current mode controller; the output switch conduction is initiated by every oscillator cycle and is terminated when the peak inductor current reaches the threshold level established by the FB pin. The inductor current signal is converted to a voltage signal by inserting a reference sense resistor R S. The inductor current under normal operating conditions is controlled by the voltage at FB pin, the relation between peak inductor current (I PK ) and V FB is: I = ( V 0.8) / 3R PK FB S Leading-edge Blanking A narrow spike on the leading edge of the current waveform can usually be observed when the power MOSFET is turned on. A 250ns leading-edge blank is built-in to prevent the false-triggering caused by the turn-on spike. During this period, the current limit comparator is disabled and the gate driver can not be switched off. FB Pin and Short Circuit Protection This pin is normally connected to the opt-coupler and always paralleled with a capacitor for loop compensation. When the voltage at this pin is great than 4.2V (such as output short to ground or the optcoupler is broken) and lasts for about 25ms, the IC will enter the protection mode. For, the system will enter hiccup mode to wait the VCC decreasing to low UVLO level, then the IC will try to restart until the failure removed. And when this voltage is less than 1.5V, the IC will stop the drive pulse immediately. Therefore, this feature can be used for short circuit protection, which makes the system immune from catastrophic failure. Normally, output short makes the VFB value to the maximum because the opt-coupler is cut off. System Protection and Pin Fault Protection The provides versatile system and pin fault protections. The OCP comparator realizes the cycleby-cycle current limiting (OCP).In universal input line voltage, the IC realizes the constant over load protection (OLP). VCC over voltage protection can be applied as the primary OVP or opt-coupler broken protection. The also has pin fault connection protection including floating and short connection. The floating pin protection include the RI, SENSE, FB, etc; The short pin protection includes the RI pin short protection. When these pins are floated or RI pin is shorted to ground, PWM switching will be disabled, thus protecting the power system. 10
Typical Application T1 L2 ~ + -~ C2 R4 R5 R6 C5 R13 C6 C7 C8 R19 C4 R2 R3 NTC U1 VCC C3 GATE R8 R14 F1 C1 VR1 ~ R7 SENSE RI FB GND C11 R9 R10 R11 R12 C10 U2 AZ431 C9 R15 R16 R17 R18 Figure 10. Typical Application of 11
Mechanical Dimensions SOT-23-6 Unit: mm(inch) 2.820(0.111) 3.020(0.119) 0.300(0.012) 0.400(0.016) 0 8 0.200(0.008) 6 5 4 0.300(0.012) 0.600(0.024) 2.650(0.104) 2.950(0.116) Pin 1 D ot by M arking 1.500(0.059) 1.700(0.067) 1 2 3 0.700(0.028)REF 0.950(0.037)TYP 1.800(0.071) 2.000(0.079) 0.000(0.000) 0.150(0.006) 0.100(0.004) 0.200(0.008) 0.900(0.035) 1.300(0.051) 1.450(0.057) MAX 12
Mechanical Dimensions (Continued) DIP-8 Unit: mm(inch) 0.700(0.028) 6 1.524(0.060) TYP 6 7.620(0.300)TYP 5 3.710(0.146) 4.310(0.170) 4 3.200(0.126) 3.600(0.142) 4 3.000(0.118) 3.600(0.142) 0.510(0.020)MIN 0.254(0.010)TYP 0.360(0.014) 0.560(0.022) 0.130(0.005)MIN 2.540(0.100) TYP 8.200(0.323) 9.400(0.370) 0.204(0.008) 0.360(0.014) R0.750(0.030) 6.200(0.244) 6.600(0.260) Φ3.000(0.118) Depth 0.100(0.004) 0.200(0.008) 9.000(0.354) 9.400(0.370) Note: Eject hole, oriented hole and mold mark is optional. 13
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