ADT7350 General Description The ADT7350 is a step-down converter with integrated switching MOSFET. It operates wide input supply voltage range from 4.5V to 24V with 1.2A peak output current. It includes current limiting protection and thermal shutdown. It reduces design complexity and external component count. The ADT7350 is available in small outline SOT23-6L package. Features Package outline of the ADT7350 Applications • Current mode buck regulator with 1.4MHz fixed frequency • Input voltage range : 4.5V to 24V • Adjustable output range : 0.81V to 15V • Max. output current : 1.2A • Up to 92% Efficiency • Internal Soft-Start Function • Integrated Power MOSFET switch : 400mΩ • Thermal shutdown & current limit protection • SOT23-6L package • • • • Distributed Power Systems Surveillance Camera module Navigation Infra-Red LED Drivers Typical Application Circuit * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 1/10 http://www.ad-tech.co.kr ADT7350 Part List Component Type Value (Model) Manufacturer U1 IC ADT7350 ADTech D1 Schottky barrier diode RSX101M-30 ROHM L1 Chip inductor 4.7uH / 1.6A TDK C2 MLCC 22㎌ / 16V - C1 MLCC 10㎌ / 50V - CB MLCC 10㎋ - R1 Chip resistor 49.9㏀ / 1% - R2 Chip resistor 16.2㏀ / 1% • R1,R2 : VOUT 3.3V typical case Pin Description Pin No. Name 1 BST Bootstrap. This pin acts as the power supply for internal Power Transistor driver. Connect a 10nF capacitor between this pin and SW pin. 2 GND Ground and heat sink. Connect this pin to a large copper PCB area. 3 FB Feedback voltage input. The voltage of this pin is regulated to 0.81V. The shielding in the PCB layout is option and connect resistor divider as close as possible. 4 EN Chip enable input. The Enable voltage range is higher than 1.2V and disable voltage is lower than 0.4V. 5 VIN Power supply input. The input bypass capacitor should be as close as GND pin. 6 SW Switching node. The free-wheeling diode is connected between this pin and GND. Pin Description 1 GND 2 FB 43 350A BST 6 SW 5 VIN 44 EN * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 2/10 http://www.ad-tech.co.kr ADT7350 Functional Block Diagram VIN 5 EN 4 Shutdown Current sense - RS + Internal Regulator Voltage Reference Regulator 1 BST Σ OSC Current Limit ZFB Control Driver LOGIC + 6 SW + - FB 3 Error Amp Comparator 2 GND Absolute Maximum Ratings (Note1) Parameter Symbol Min. Typ. Max. Unit Power supply voltage VIN - - 26 V SW pin voltage VSW - - 27 V BST pin voltage VBST - - VSW + 6V V - -0.3 - +6 V Max. power dissipation (Ta=25℃) (Note2) PD - - 400 mW Thermal resistance (Note3) ΘJA - 250 - ℃/W Storage temperature TSTG -65 - +150 ℃ Junction temperature TJmax - - +150 ℃ All Other Pins Note1. Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. Note2. derate 4.0mW/℃ above +25℃. This is recommended to operate under this power dissipation specification. Note3. Measured on JESD51-7, 4-layer PCB Operating Ratings Parameter Symbol Min. Typ. Max. Unit VIN 4.5 12.0 24.0 V Output voltage VOUT 0.81 - 15 V Operating temperature TOPR -40 - +85 ℃ TJ - - +125 ℃ Power supply voltage Junction temperature * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 3/10 http://www.ad-tech.co.kr ADT7350 Electrical Characteristics (Ta=25℃, VIN=12V, unless otherwise noted) Parameters Condition Min. Typ. Max. Unit Supply current (shutdown) VEN = 0V - 0.2 - ㎂ Supply current (quiescent) VEN = 2V, VFB = 1V - - 1 ㎃ Feedback voltage (VFB) 4.5V ≤ VIN ≤ 24V 0.79 0.81 0.83 V Feedback current (IFB) VFB = 0.81V - 0.1 - ㎂ Switch On Resistance (RDS.ON), (Note5) - - 0.4 - Ω Switch Leakage VEN = 0V , VSW = 0V - - 30 ㎂ Current Limit (Note5) - - 1.8 - A Oscillator frequency (FSW) VFB = 0.81V 1.2 1.4 1.7 ㎒ Fold-back frequency VFB = 0V - 460 - ㎑ Maximum Duty cycle VFB = 0.81V - 85 - % UVLO rising threshold - 4 V UVLO threshold hysteresis - - 200 - ㎷ EN input low voltage - - - 0.4 V EN input high voltage - 1.2 - - V VEN = 2V - 5 - ㎂ VEN = 0V - 0.1 - ㎂ - - 140 - ℃ EN input current Thermal shutdown (Note5) Note Note5. guaranteed by design. * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 4/10 http://www.ad-tech.co.kr ADT7350 TYPICAL PERFORMANCE CHARACTERISTICS VIN =12V, VOUT=5V, L1=4.7μH, C1=10 μF, C2=22 μF, TA =25°C, Unless otherwise mentioned Efficiency vs. Load current Efficiency vs. Load current 90% 90% Efficiency [%] 100% Efficiency [%] 100% 80% 80% 70% 70% 60% 60% 50% 50% 40% 40% 30% 30% 20% 20% VIN =12V VOUT=5V 10% VIN =24V VOUT=5V 10% 0% 0% 0.01 0.1 0.3 0.5 0.8 1 1.2 0.01 0.1 Load current [A] 0.3 0.5 0.8 1 1.2 Load current [A] Switching Frequency vs. Temperature Feedback voltage vs. Temperature 1.7 0.830 0.825 Frequency [MHz] 1.6 Voltage [V] 0.820 0.815 1.5 0.810 1.4 0.805 0.800 1.3 0.795 1.2 0.790 -50 -20 10 40 70 100 120 -50 Ambient Temperature [°C] -20 10 40 70 100 120 Ambient Temperature [°C] * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 5/10 http://www.ad-tech.co.kr ADT7350 TYPICAL PERFORMANCE CHARACTERISTICS VIN =12V, VOUT=3.3V, L1=4.7μH, C1=10 μF, C2=22 μF, TA =25°C, Unless otherwise noted Transient Load Response Start-up through Enable No Load Iout=0.2A to 0.8A step at 0.8A/us VOUT (AC Coupled) EN VOUT VSW VSW IL IL Shut down through Enable Start-up through Enable Iout=1A Resistive Load No Load EN EN VOUT VOUT VSW VSW IL IL Shut down through Enable Dimming control EN[1kHz] Iout=1A Resistive Load EN VOUT VOUT VSW VSW IL IL * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 6/10 http://www.ad-tech.co.kr ADT7350 DETAILED DESCRIPTION Architecture and Operation The ADT7350 is a current mode step-down converter uses a PWM control and integrated Power Switch. An internal error amplifier establishes an integrated error voltage which is compared with slope compensated ramp signal in order to make internal Power Switch control signal. The ADT7350 has not only voltage feedback loop but also current feed-forward loop. The peak current detector limit the over current in cycle by cycle basis and gives the information of load current to the PWM controller. At the starting of a cycle, Power Switch is off , the input and output is isolated. The fixed frequency generator start to operate. After oscillator working , every cycle of beginning, the Power Switch is turned on. The current flows into inductor thus input is shorted to output via to inductor. The Power Switch is turned off when ; 1) The ramp signal which is the sum of the current sensing amplifier output and artificial compensated signal to prevent from sub-harmonic oscillation crosses the output of integrator . 2) The inductor current reaches the maximum allowed level (1.8A) 3) The protection signals are trigged. When the Power Switch is off , the inductor current can not change abruptly. The external Schottky diode conducts the inductor current. Enable(EN) The ADT7350 features a low-power shut down mode to decrease total current consumption. A logic Low at EN shuts down the controller and internal Power Switch. The typical value of VIH is 1.2V , VIL is 0.4. Soft-Start The internal soft-start circuitry make a reference voltage of error amplifier gradually ramps up to reduce input surge current during start-up. Bootstrap In order to generate enough large control voltage of Power Switch. The purpose of this block is to decrease Power Switch turn on resistance. Protection (OVP/OTP/OCP) The ADT7350 monitors the output voltage of controller and limit the maximum allowed feedback voltage in order not to abruptly change output voltage. The output feed-back voltage over 0.95V, this function is trigged. The ADT7350 monitors the temperature variation using PTAT(Proportional to Absolute Temperature) current. When the die temperature exceeds typical +140 °C , the Over temperature function is trigged. The maximum allowed inductor current is well controlled to prevent from falling into over-load or shorted output conditions. The maximum allowed load current is typically 1.8A. * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 7/10 http://www.ad-tech.co.kr ADT7350 DETAILED DESCRIPTION UVLO (Under Voltage Lock Out) ADT7350 can monitor the battery output voltage. If the battery output voltage is under 3.8V . The ADT7350 goes to the UVLO status to save the power consumption of applications. Oscillator The ADT7350 has a fixed frequency generator (typical 1.4MHz) and also automatically changes the operating frequency in accordance with feedback voltage (0.81V) for protecting the load. If the feedback voltage is under 0.4V, the operating frequency changes to one third of fixed operating frequency. (Typical 460KHz) Error Amplifier The high gain error amplifier integrate the error signal from which the difference of reference voltage and feedback voltage. The summed output Error signal compares with PWM Ramp signal. It provides accuracy of the voltage feedback loop regulation. The feedback voltage of ADT7350 is typical 0.81V. Current sense Amplifier The current sense amplifier output is proportional to the current flowing into the inductor. This output goes to the comparator to make a proper control signal. The ADT7350 has well compensated current slope which is added into ramp generator circuit. Compensation Network The fixed frequency peak current mode control scheme to provide easy compensation for stability and fast transient response. The cycle-by-cycle basis monitored peak current of inductor is compared with error amplifier output voltage. The duty cycle is modulated based on the inductor’s peak current. The inductor can be emulated to current source. So the inductor’s pole frequency goes to high frequency . It seems to be one-pole system. The ADT7350 has a inner compensation network in error amplifier block. * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 8/10 http://www.ad-tech.co.kr ADT7350 APPLICATION INFORMATION Output Voltage Setting Enable resistor Setting (R3) Step 1) Determine R1 value The current of feedback resistors is Above figure is simplified input stage of ADT7350. I FB _ RES VOUT R1 R2 VEN In order to get the good sensitivity, increase this current in spite of such amount of current consumption. (Refer to following table for reasonable start) Step 2) Determine R2 value the basis of following equation. R2 R1 VOUT 1 VREF @VREF=810mV RINT 1 RINT 2 VIN RINT 1 RINT 2 R3 R_int1=1KΩ , R_Int2=1MΩ Example) VIN=12V 1) R3=1MΩ 1K 1M VEN VIN 5.8V 1K 1M 1M The zener diode clips this voltage into 5.8V 2) R3=2MΩ VEN The voltage of feedback should be equal to internal reference voltage in well-designed negative feedback loop. VOUT (V) R1(KΩ) R2 (KΩ) L(µH) 1.2 80.6 160 2.2 1.8 80.6 64.9 2.2 2.5 49.9 23.7 4.7 3.3 49.9 16.2 4.7 5 49.9 9.53 4.7 7 49.9 6.53 4.7 10 80.6 6.98 10 15 80.6 4.53 10 1K 1M VIN 4V 1K 1M 2M 3) R3=5MΩ VEN 1K 1M VIN 2V 1K 1M 5M * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 9/10 http://www.ad-tech.co.kr ADT7350 Package ; SOT23-6L Symbol Dimensions In Millimeters Dimensions In Inches Min Max Min Max A 1.050 1.250 0.041 0.049 A1 0.000 0.100 0.000 0.004 A2 1.050 1.150 0.041 0.045 b 0.300 0.500 0.012 0.020 c 0.100 0.200 0.004 0.008 D 2.820 3.020 0.111 0.119 E 1.500 1.700 0.059 0.067 E1 2.650 2.950 0.104 0.116 e 0.950(BSC) 0.037(BSC) e1 1.800 2.000 0.071 0.079 L 0.300 0.600 0.012 0.024 θ 0º 8º 0º 8º * This specifications are subject to be changed without notice Aug 21. 2012 / Rev. 0.2 10/10 http://www.ad-tech.co.kr