Advanced Power Electronics Corp. APE8935 ULTRA- LOW ON RESISTANCE, 6A LOAD SWITCH WITH CONTROLLED TURN-ON FEATURES DESCRIPTION ▓ Integrated 6A Single Channel Load Switch The APE8935 is a small, ultra-low RON load switch ▓ Input Voltage Range: 0.8V to 5.5V with controlled turn on. It contains one N-channel ▓ Ultra-low ON-Resistance RON = 4.5mΩ MOSFET that can operate over an input voltage (VBAIS=5V, VIN=1.05V) range of 0.8V to 5.5V and support maximum ▓ Low Threshold Control Input continuous current up to 6A. The switch is controlled ▓ Quick Output Discharge Transistor by an on/off input (EN), which is capable of ▓ Halogen Free Product interfacing directly with low-voltage control signals. Additional features include a 330Ω on-chip load APPLICATIONS ▓ Telecom Systems ▓ Industrial Systems ▓ Consumer Electronics ▓ Notebooks / Netbooks resistor is added for output quick discharge when switch is turned off. The APE8935 is available in 8-pin DFN 3x3-8L package with smallest components. TYPICAL APPLICATION +5V / +3.3V VBIAS VIN VIN CIN 1uF VOUT COUT 0.1uF APE8935 EN Data and specifications subject to change without notice VOUT GND 1 20140113V1.0 Advanced Power Electronics Corp. APE8935 ORDERING / PACKAGE INFORMATION Top View DFN 3x3-8L APE8935X Package Type GN3: DFN 3x3-8L VIN 1 VIN 2 VBIAS 3 EN 4 Exposed Pad VIN 8 VOUT 7 VOUT 6 VOUT 5 GND ABSOLUTE MAXIMUM RATINGS (at TA=25°C) VIN -0.3V to 6V VOUT VIN+0.3V EN -0.3V to 6V VBIAS -0.3 to 6V IMAX 6A Storage Temperature Range (TST) -65 to +150°C Junction Temperature (TJ) 150°C Lead Temperature (Soldering, 10sec.) 260°C Thermal Resistance from Junction to Ambient (RθJA) DFN 3x3-8L 43°C/W RECOMMENDED OPERATING CONDITIONS VIN 0.8V to 5.5V VBIAS 2.5V to 5.5V (VBIAS≧VIN) VOUT . VIN CIN ≧0.1uF Junction Temperature (TJ) 125°C Operating Temperature Range -40°C to 85°C 2 Advanced Power Electronics Corp. APE8935 ELECTRICAL SPECIFICATIONS (VIN=0.8V to 5.5V, VBIAS=5V, CIN=1uF, COUT=0.1uF, TA =25°C, unless otherwise specified) PARAMETER Quiescent Current Shutdown Current SYM IBIAS ISD TEST CONDITION MIN TYP MAX UNIT VBIAS=VEN=5V, VIN=1.05V, IOUT=0A 30 50 uA VBIAS=VEN=5V, VIN=1.5V, IOUT=0A 30 50 uA 1 uA VEN=GND VBIAS=VEN=5V, TA=25°C 4.5 5 VIN=1.05V, mΩ (NOTE1) ON Resistance(Note1) RON IOUT=200mA -40~85°C 5.5 6 VBIAS=VEN=5V, TA=25°C 4.5 5 -40~85°C(NOTE1) 5.5 6 330 400 Ω 1 uA VIN=1.5V, IOUT=200mA Output Pull-Down Resistance EN Input Leakage Current mΩ ROPD VIN=5V, VEN=0V IEN VEN=5V or GND VIH on VIL off 1.3 V EN Threshold 0.5 V Note1: Make sure VBAIS≧VIN for optimum RON performance. 3 Advanced Power Electronics Corp. APE8935 SWITCHING SPECIFICATIONS VBIAS VBIAS VIN VIN APE8935 CIN 1uF VOUT VOUT VEN COUT 0.1uF EN RL GND Fig.1 Test Circuit VEN tON tOFF 90% 90% 50% 50% 10% 10% 1% VOUT tD -ON tR tF Fig.2 ON/OFF Waveforms PARAMETER Turn-on Time Turn-off Time VOUT Rise Time VOUT Fall Time VOUT Turn-on Delay Time SYM tON tOFF tR tF tD-ON TEST CONDITION MIN TYP MAX UNIT VBIAS=VEN=5V, VIN=1.05V 905 us RL=10Ω VIN=1.5V 940 us VBIAS=VEN=5V, VIN=1.05V 5.4 us RL=10Ω VIN=1.5V 5.2 us VBIAS=VEN=5V, VIN=1.05V 308 440 572 us RL=10Ω VIN=1.5V 381 545 708 us VBIAS=VEN=5V, VIN=1.05V 1.7 us RL=10Ω VIN=1.5V 1.8 us VBIAS=VEN=5V, VIN=1.05V 388 555 721 us RL=10Ω VIN=1.5V 381 545 708 us 4 Advanced Power Electronics Corp. APE8935 SWITCHING SPECIFICATIONS (Continued) PARAMETER Turn-on Time Turn-off Time VOUT Rise Time VOUT Fall Time VOUT Turn-on Delay Time SYM tON tOFF tR tF tD-ON TEST CONDITION MIN TYP MAX UNIT VBIAS=VEN=5V, VIN=1.05V 1345 us IOUT=6A VIN=1.5V 1480 us VBIAS=VEN=5V, VIN=1.05V 4.8 us IOUT=6A VIN=1.5V 4.8 us VBIAS=VEN=5V, VIN=1.05V 602 860 1118 us IOUT=6A VIN=1.5V 616 880 1144 us VBIAS=VEN=5V, VIN=1.05V 0.5 us IOUT=6A VIN=1.5V 0.7 us VBIAS=VEN=5V, VIN=1.05V 497 710 923 us IOUT=6A VIN=1.5V 495 708 920 us 5 Advanced Power Electronics Corp. APE8935 PIN DESCRIPTIONS PIN No. PIN SYMBOL 1, 2 VIN 3 VBIAS 4 EN 5 GND Ground 6, 7, 8 VOUT Switch output Exposed pad VIN PIN DESCRIPTION Input Power Supply Bias Voltage Switch control input, active high. Do not leave floating. Input Power Supply BLOCK DIAGRAM VBIAS VIN Oscillator Charge Pump VOUT Control Logic Output Discharge EN GND 6 Advanced Power Electronics Corp. APE8935 TYPICAL PERFORMANCE CHARACTERISTICS Condition: VBIAS=VEN=5V, RL=10Ω, Cin=1uF, Cout=0.1uF, ch1:EN, ch2:VOUT, ch4:IIN Fig.1 Waveform for tD-ON, VIN=1.05V Fig.2 Waveform for tD-ON, VIN=1.5V Fig.3 Waveform for tON and tR, VIN=1.05V Fig.4 Waveform for tON and tR, VIN=1.5V Fig.5 Waveform for tOFF and tF, VIN=1.05V Fig.6 Waveform for tOFF and tF, VIN=1.5V 7 Advanced Power Electronics Corp. APE8935 TYPICAL PERFORMANCE CHARACTERISTICS (Continued) Condition: VBIAS=VEN=5V, IOUT=6A, Cin=1uF, Cout=0.1uF, ch1:EN, ch2:VOUT, ch4:IIN Fig.7 Waveform for tD-ON, VIN=1.05V Fig.8 Waveform for tD-ON, VIN=1.5V Fig.9 Waveform for tON and tR, VIN=1.05V Fig.10 Waveform for tON and tR, VIN=1.5V Fig.11 Waveform for tOFF and tF, VIN=1.05V Fig.12 Waveform for tOFF and tF, VIN=1.5V 8 Advanced Power Electronics Corp. APE8935 TYPICAL PERFORMANCE CHARACTERISTICS (Continued) 2500 10 Cin=1uF, Cout=0.1uF, RL=10Ω 9 2000 8 1750 7 1500 6 tOFF (us) tON (us) 2250 1250 1000 Cin=1uF, Cout=0.1uF, RL=10Ω 5 4 750 3 500 2 VBIAS=3.3V 250 VBIAS=3.3V 1 VBIAS=5.0V 0 VBIAS=5.0V 0 0.8 1.4 2.0 2.6 3.2 VIN (V) 3.8 4.4 5.0 0.8 1.4 2.0 Fig.13 tON vs. VIN 3500 2.6 3.2 3.8 VIN (V) 4.4 5.0 Fig.14 tOFF vs. VIN 10 Cin=1uF, Cout=0.1uF, RL=10Ω Cin=1uF, Cout=0.1uF, RL=10Ω 9 3000 8 2500 7 6 tR (us) tF (us) 2000 1500 5 4 3 1000 2 VBIAS=3.3V 500 VBIAS=3.3V 1 VBIAS=5.0V 0 VBIAS=5.0V 0 0.8 1.4 2.0 2.6 3.2 VIN (V) 3.8 4.4 5.0 0.8 1.4 2.0 Fig.15 tR vs. VIN 1100 3.2 3.8 VIN (V) 4.4 5.0 Fig.16 tF vs. VIN 5.4 Cin=1uF, Cout=0.1uF, RL=10Ω 1000 5.3 900 5.2 800 Io=200mA VBIAS=3.3V VBIAS=5.0V 5.1 700 5.0 RON (mΩ) tD-ON (us) 2.6 600 4.9 500 4.8 400 4.7 300 200 VBIAS=3.3V 100 VBIAS=5.0V 0 4.6 4.5 4.4 0.8 1.4 2.0 2.6 3.2 VIN (V) 3.8 Fig.17 tD-ON vs. VIN 4.4 5.0 0.8 1.4 2.0 2.6 3.2 VIN (V) 3.8 4.4 5.0 Fig.18 RON vs. VIN 9 Advanced Power Electronics Corp. APE8935 TYPICAL PERFORMANCE CHARACTERISTICS (Continued) 8.0 8.0 VBIAS=VIN=5V 7.5 VBIAS=VIN=3.3V 7.0 VBIAS=5V, VIN=1.05V 6.5 6.5 6.0 6.0 RDS-ON (mΩ) RDS-ON (mΩ) 7.0 VBIAS=VIN=5V 7.5 VBIAS=VIN=3.3V 5.5 5.0 4.5 4.0 VBIAS=5V, VIN=1.05V 5.5 5.0 4.5 4.0 3.5 3.5 Io=200mA Io=6A 3.0 3.0 -40 -20 0 20 40 60 TJ (°C) 80 100 120 -40 0 20 TA (°C) 40 60 80 Fig.20 RON vs. Temperature 50 1 45 0.9 VIN=VBIAS=5V 40 0.8 VIN=VBIAS=3.3V 35 0.7 30 0.6 ISD (uA) IBIAS (uA) Fig.19 RON vs. Temperature -20 25 20 15 0.5 0.4 0.3 10 5 VIN=VBIAS=5V 0.2 VIN=VBIAS=3.3V 0.1 0 0 -40 -20 0 20 40 60 TJ (°C) 80 100 120 Fig.21 Quiescent Current vs. Temperature -40 -20 0 20 40 60 TJ (°C) 80 100 120 Fig.22 Shutdown Current vs. Temperature 2.0 1.8 1.6 VEN (V) 1.4 1.2 1.0 0.8 0.6 0.4 VEN-H 0.2 VEN-L 0.0 -40 -20 0 20 40 60 80 TJ (°C) Fig.23 EN Threshold vs. Temperature 10 Advanced Power Electronics Corp. APE8935 APPLICATION INFORMATION On/Off Control The load switch is controlled by the EN pin. The EN pin is active high and has a low threshold making it capable of interfacing with low voltage signals. The EN pin can be used with standard 1.5V, 1.8V, 2.5V or 3.3V GPIO logic threshold. Do not leave the EN pin float. Input Capacitor An input capacitor is recommended to be placed between VIN and GND to limit the voltage drop on the input supply during high current application. Output Capacitor Setting a CIN greater than the COUT is highly recommended. Since the internal body diode is in the NMOS switch, this prevents the current flows through the body diode from VOUT to VIN when the system supply is removed. Layout Considerations Follow the below guidelines for PCB layout to achieve stable operation. Take below figure for reference. 1. Keep the high current paths (VIN, VOUT and GND) wide and short to obtain the best effect. 2. The input and output capacitors should be close to the device as possible to minimize the parasitic trace inductances. 3. Place the thermal vias under the exposed pad. This help for thermal diffusion away from the device. Fig.24 Reference layout 11 Advanced Power Electronics Corp. APE8935 MARKING INFORMATION DFN 3x3-8L Part Number Package Code 8935GN3 YWWSSS Date Code (YWWSSS) Y : Year WW : Week SSS : Sequence 12