MD7602D33

High Voltage Low Power Consumption LDO MD7602 Series CMOS Voltage Regulator With ON/OFF Switch 1A MD7602 Series is a high voltage (up to 40V) low power low dropout voltage regulator (LDO) manufactured in CMOS processes. It can deliver up to 1A of current while consuming only 1.6uA of quiescent current. It consists of a reference voltage generator, an error amplifier, a current foldback circuit, and a phase compensation circuit plus a driver transistor. ■ FEATURES ■ APPLICATIONS Ultra-low Quiescent Current: 1.6uA ⚫ Maximum Input Voltage: 40V ⚫ Output Voltage Highly Accurate: ±2％ ⚫ Maximum Output Current: 1A ⚫ Dropout Voltage: 10mV@IOUT=10mA ⚫ Temperature Stability: ±50ppm/℃ ⚫ ON/OFF Logic = Enable High ⚫ Protections Circuits: Current Limiter, Foldback, Thermal shutdown ⚫ Output Capacitor: Low ESR Ceramic Capacitor Compatible ⚫ ⚫ ⚫ ⚫ ⚫ Smart wearer Long-life battery-powered devices Portable mobile devices, such as mobile phones, cameras, and so on Wireless communication equipment ■ Product Selections Type Output Voltage （note 1*） Current Limit Accuracy MD7602A30 MD7602A33 MD7602A36 MD7602A40 MD7602A50 MD7602A12 MD7602C30 MD7602C33 MD7602C36 MD7602C40 MD7602C50 MD7602C12 MD7602R30 MD7602R33 MD7602R36 MD7602R50 3.0V 3.3V 3.6V 4.0V 5.0V 12.5V 3.0V 3.3V 3.6V 4.0V 5.0V 12.0V 3.0V 3.3V 3.6V 5.0V 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% 1 / 12 Package MARKING （note 2*） (note 3*） SOT-89-3 SOT-89-3 SOT-89-3 SOT-89-3 SOT-89-3 SOT-89-3 SOT-223 SOT-223 SOT-223 SOT-223 SOT-223 SOT-223 SOT-89-5 SOT-89-5 SOT-89-5 SOT-89-5 7602A30 7602A33 7602A36 7602A40 7602A50 7602A12 7602C30 7602C33 7602C36 7602C40 7602C50 7602C12 7602R30 7602R33 7602R36 7602R50 MD7602D30 MD7602D33 MD7602D36 MD7602D40 MD7602D50 MD7602D10 MD7602D12 3.0V 3.3V 3.6V 4.0V 5.0V 10.0V 12.0V 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A 1.8A ±2% ±2% ±2% ±2% ±2% ±2% ±2% TO-252 TO-252 TO-252 TO-252 TO-252 TO-252 TO-252 7602D30 7602D33 7602D36 7602D40 7602D50 7602D10 7602D12 Notes: 1* Customer can request to customize the output voltage ranged from 1.2V to 15V if desired voltage is not found in the selections. 2* Customer can request customization of package choice. 3* Please pay attention to the MARKING of the product package type. ■ PIN CONFIGURATION (TOP VIEW) SOT-89-3 VIN SOT-223 VOUT 4 4 2 VIN GND GND 2 7602DXX 7602CXX 7602AXX 1 TO-252 1 2 3 1 3 GND VOUT VIN VIN VOUT 3 VOUT SOT-89-5 VDD VOUT 6 GND 4 5 7602RXX 1 2 CE GND 3 NC ■ Absolute Maximum Ratings (Unless otherwise indicated: Ta=25℃) PARAMETER SYMBOL RATINGS Input Voltage VIN -0.3 ~ 45 Output Voltage VOUT Vss-0.3 ~ VIN+0.3V Power Dissipation PD UNITS SOT 89 TO 252 1000 1800 SOT 223 1500 Operating Ambient Temperature Topr -40 ~ +85 Storage Temperature Tstg -40 ~ +125 ESD Protection ESD HBM 2000 Note: Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. 2 / 12 V mW ℃ V ■ ELECTRICAL CHARACTERISTICS MD7602 Series (Unless otherwise indicated：Ta=25℃) PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNIT Output Voltage*1 VOUT(S) VIN= VOUT(S)+2V，IOUT=10mA VOUT(S) 0.98 VOUT(S) VOUT(S) 1.02 V Dropout Voltage*2 VDROP IOUT=1mA 4 8 IOUT=1A 1000 1500 Line Regulation ΔVOUT ΔVIN • VOUT(s) VOUT(S)+2V≤VIN≤40V IOUT =1mA 0.01 0.02 VOUT(S)≤10V 20 80 VOUT(S)>10V 85 150 Load Regulation Temperature Stability VOUT2 ΔVOUT Ta • VOUT(s) VIN=VOUT(S)+2V 1mA≤IOUT≤300mA IGND VIN = VOUT(S)+2V，IOUT=10mA ±50 -40℃≤Ta≤85℃ no load ％/V mV VOUT(S)5.3V 1.5 2.3 3 uA 0.1 uA 40 V IOUT=100mA 460 Shutdown Current (CE=0) ISHUT VIN=40.0V, VCE=0 Input Voltage VIN --- Maximum Output Current IOUTMAX Current Limit*3 ILIM VIN= VOUT(S)+2V, VOUT = 0.95 ×VOUT(S) 1.8 Short Circuit Current*4 ISHORT VIN=VOUT(S)+2V, VOUT=0V 95 f=10Hz, VOUT(S)=3.6V 73.2 Power Supply Rejection Ratio PSRR f=100Hz, VOUT(S)=3.6V 72.2 f=1kHz, VOUT(S)=3.6V 54.5 0.01 2.2 1 A mA dB CE ‘H’ Level Voltage VCEH 1.5 40.0 CE ‘L’ Level Voltage VCEL 0 0.6 CE ‘H’ Level Current ICEH VIN=40V, VCE=VIN -0.1 0.1 CE ‘L’ Level Voltage ICEL VIN=40V, VCE=0 -0.1 0.1 Over Temperature Protection OTP IOUT=10mA V uA Notes: 1. VOUT(S): Output voltage when VIN=VOUT+2V, IOUT=1 mA. 2. VDROP=VIN1 -（VOUT(S)× 0.98）where VIN1 is the input voltage when VOUT = VOUT(S)× 0.98. 3. ILIM: Output current when VIN=VOUT(S)+2V and VOUT = 0.95*VOUT(S). 4. VOUT pin should be shorted to GND pin, and the impedance between them is less than 0.1 ohm. 3 / 12 145 ℃ ■ TYPICAL APPLICATIONS VIN + + MD7602AXX DC - VOUT GND VOUT COUT =2.2uF CIN=2.2uF - ■ Notes on Use Input Capacitor (CIN): 2.2µF above Output Capacitor (COUT): 2.2µF above 4 / 12 ■ TYPICAL PERFORMANCE CHARACTERISTICS(CONTINUTED) Test Conditions: VIN=VOUT+2.0V, CIN=2.2μF, COUT=2.2μF, unless otherwise indicated. VOUT vs Temperature at VOUT=3.6V VDROP vs Temperature at VOUT=3.6V GND Current vs Input Voltage at VOUT=3.6V GND Current vs Temperature at VOUT=3.6V Output Current Fold-back at VOUT=3.6V Output Voltage vs Input Voltage at VOUT=3.6V 5 / 12 ■ TYPICAL PERFORMANCE CHARACTERISTICS(CONTINUTED) Test Conditions: VIN=VOUT+2.0V, CIN=2.2μF, COUT=2.2μF, unless otherwise indicated. Power Supply Rejection Ratio at VOUT=3.6V GND Current vs Output Current at VOUT=3.6V Ch1=VOUT Ch1=VOUT Ch2=IOUT Ch2=IOUT Load Transient at VOUT=3.6V Load Transient at VOUT=3.6V 7602A36(IOUT=0mA~1A) 7602A36(IOUT=1A~0mA) Ch1=VOUT Ch1=VOUT Ch2=IOUT Ch2=IOUT Load Transient at VOUT=3.6V Load Transient at VOUT=3.6V 7602A36(IOUT=1mA~300mA~1mA) 7602A36(IOUT=1mA~1A~1mA) 6 / 12 ■ TYPICAL PERFORMANCE CHARACTERISTICS(CONTINUTED) Test Conditions: VIN=VOUT+2.0V, CIN=2.2μF, COUT=2.2μF, unless otherwise indicated. Ch1=VOUT Ch1=VOUT VIN=5.6V VIN=6.6V Ch2=VIN VIN=5.6V VIN=6.6V Line Transient at VOUT=3.6V Line Transient at VOUT=3.6V 7602A36(IOUT=1mA) 7602A36(IOUT=10mA) Ch2=VIN Ch1=VOUT Ch1=VOUT Ch2=VIN Ch2=VIN Power-Up at VOUT=3.6V Power-Up at VOUT=3.6V 7602A36(IOUT=0mA) 7602A36(IOUT=1A) Ch1=VOUT Ch1=VOUT Ch2=VIN Ch2=VIN Power- Down at VOUT=3.6V Power- Down at VOUT=3.6V 7602A36(IOUT=0mA) 7602A36(IOUT=1A) 7 / 12 ■ OPERATIONAL EXPLANATION 1. Output voltage control The voltage divided by resistors R1 and R2 is compared with the internal reference voltage by the error amplifier. The amplifier output then drives the P-channel MOSFET connected to the VOUT pin. The output voltage at the VOUT pin is regulated by this negative feedback system. The current limit circuit and short protect circuit operate in relation to output current level. VIN Current Fold-back Protection Vref VOUT AMPLIFIER R1 Vfb Reference Voltage R2 GND 2. Pass transistor The pass transistor with low turn-on resistance used in MD7602 is a P-channel MOSFET. If the potential on VOUT pin is higher than VIN, it is possible that IC will be destroyed due to reverse current which is caused by parasitic diodes between VIN and VOUT. Therefore, the VOUT pin potential exceeds VIN+0.3V is not allowed. 3. Current foldback and over temperature protection The MD7602 series includes a combination of a fixed current limiter circuit and a foldback circuit, which aid the operations of the current limiter and circuit protection. When the load current reaches the current limit level, the fixed current limiter circuit operates and output voltage drops. As a result of this drop in output voltage, the foldback circuit operates, output voltage drops further and output current decreases. This design can prevent the chip be damaged due to over temperature, moreover, the heat dissipation is limited by the package type. Special attention should be paid to that the product of the dropout voltage on the chip and the output current must be smaller than the heat dissipation. If power consumption on the chip is more than the heat dissipation, OTP will protect the chip from damaging due to over temperature. ■ Notes: 1. The input and output capacitors should be placed as close as possible to the IC. 2. If the impedance of the power supply is high, which is caused by forgetting installing input capacitor or installing too small value capacitor, the oscillation may occur. 3. Pay attention to the operation conditions of input and output voltage and load current, such that the power consumption in the IC should not exceed the allowable power consumption of the package even though the chip has short circuit protection. 4. IC has a built-in anti-static protection (ESD) circuit, but please do not add excessive stress to the IC. 8 / 12 ■ PACKAGING INFORMATION 9 / 12 ■ PACKAGING INFORMATION(Continued) 10 / 12 ■ PACKAGING INFORMATION(Continued) 11 / 12 ■ PACKAGING INFORMATION(Continued) For the newest datasheet, please see the website: www.md-ic.com.cn Version V1.6 20210930 12 / 12