LTC1477/LTC1478 Single and Dual Protected High Side Switches U DESCRIPTION FEATURES ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ Extremely Low RDS(ON) Switch: 0.07Ω No Parasitic Body Diode Built-In Short-Circuit Protection: 2A Built-In Thermal Overload Protection Operates from 2.7V to 5.5V Inrush Current Limited Ultralow Standby Current: 0.01µA Built-In Charge Pump Controlled Rise and Fall Times: tR = 1ms Single Switch in 8-Pin SO Package Dual Switch in Narrow 16-Pin SO Package The LTC ®1477/LTC1478 protected high side switches provide extremely low RDS(ON) switching with built-in protection against short-circuit and thermal overload conditions. A built-in charge pump generates gate drive higher than the supply voltage to fully enhance the internal NMOS switch. This switch has no parasitic body diode and therefore no current flows through the switch when it is turned off and the output is forced above the input supply voltage. (DMOS switches have parasitic body diodes that become forward biased under these conditions.) Two levels of protection are provided by the LTC1477/LTC1478. The first level of protection is shortcircuit current limit which is set at 2A. The short-circuit current can be reduced to as low as 0.85A by disconnecting portions of the power device (see Applications Information). The second level of protection is provided by thermal overload protection which limits the die temperature to approximately 130°C. U APPLICATIONS ■ ■ ■ ■ ■ ■ Notebook Computer Power Management Power Supply/Load Protection Supply/Battery Switch-Over Circuits Circuit Breaker Function "Hot Swap" Board Protection Peripheral Power Protection The LTC1477 single is available in 8-lead SO packaging. The LTC1478 dual is available in 16-lead SO packaging. , LTC and LT are registered trademarks of Linear Technology Corporation. W W SI PLIFIED BLOCK DIAGRAM VINS VIN1 VIN2 VIN3 Switch Output Voltage 5.20 GATE CHARGE AND DISCHARGE CONTROL LOGIC EN CHARGE PUMP TA = 25°C VIN1 = VIN2 = VIN3 = VINS = 5V 5.10 * CURRENT LIMIT AND THERMAL SHUTDOWN * OUTPUT VOLTAGE (V) * VOUT 5.00 4.90 4.80 4.70 4.60 *NMOS SWITCHES WITH NO PARASITIC BODY DIODES LTC1477/1478 • TA01 0 0.25 0.5 0.75 1.00 1.25 OUTPUT CURRENT (A) 1.50 LTC1477/1478 • TP02 1 LTC1477/LTC1478 W W U W ABSOLUTE MAXIMUM RATINGS Supply Voltage .......................................................... 7V Enable Input Voltage ...................... (7V) to (GND – 0.3V) Output Voltage (OFF) (Note 1) ....... (7V) to (GND – 0.3V) Output Short-Circuit Duration .......................... Indefinite Junction Temperature........................................... 110°C Operating Temperature LTC1477C/LTC1478C .............................. 0°C to 70°C Storage Temperature Range ................. – 65°C to 150°C Lead Temperature (Soldering, 10 sec).................. 300°C W U U PACKAGE/ORDER INFORMATION ORDER PART NUMBER TOP VIEW VOUT LTC1477CS8 AVOUT 1 16 AVOUT AVIN 2 15 AVIN2 AVINS 3 14 AVIN3 VOUT 1 8 VIN1 2 7 VIN2 AEN 4 13 GND VINS 3 6 VIN3 GND 5 12 BEN GND BVIN3 6 11 BVINS BVIN2 7 10 BVIN1 BVOUT 8 9 EN 4 5 S8 PART MARKING S8 PACKAGE 8-LEAD PLASTIC SO 1477 TJMAX = 110°C, θJA = 120°C/ W ORDER PART NUMBER TOP VIEW LTC1478CS BVOUT S PACKAGE 16-LEAD PLASTIC SO TJMAX = 110°C, θJA = 100°C/ W Consult factory for Industrial and Military grade parts. ELECTRICAL CHARACTERISTICS VINS = VIN1 = VIN2 = VIN3 = 5V (Note 2), TA = 25°C, unless otherwise noted. Each channel of the LTC1478 is tested separately (Note 3). SYMBOL PARAMETER VIN Supply Voltage Range Supply Current IVIN RON ON Resistance ILKG ISC Output Leakage Current OFF Short-Circuit Current Limit VENH VENL IEN tD+R Enable Input High Voltage Enable Input Low Voltage Enable Input Current Delay and Rise Time CONDITIONS Switch OFF, Enable = 0V Switch ON, Enable = 5V, VIN = 5V Switch ON, Enable = 3.3V, VIN = 3.3V VINS = VIN1 = VIN2 = VIN3 = 5V, IOUT = 1A VINS = VIN1 = VIN2 = VIN3 = 3.3V, IOUT = 1A VINS = VIN1 = 5V, VIN2 = VIN3 = NC, IOUT = 0.5A VINS = VIN1 = 3.3V, VIN2 = VIN3 = NC, IOUT = 0.5A Switch OFF, Enable = 0V VINS = VIN1 = VIN2 = VIN3 = 5V, VOUT = 0V, (Note 4) VINS = VIN1 = 5V, VIN2 = VIN3 = NC, VOUT = 0V, (Note 4) 3.0V ≤ VINS ≤ 5.5V 3.0V ≤ VINS ≤ 5.5V 0V ≤ VEN ≤ 5.5V ROUT = 100Ω, COUT = 1µF, to 90% of Final Value The ● denotes specifications which apply over the full operating temperature range. Note 1: The VOUT pins must be connected together. Note 2: The VINS and VIN1 pins must be connected together. The VIN2 and VIN3 pins are typically connected to VINS and VIN1 pins but can be selectively disconnected to reduce the short-circuit current limit and 2 MIN 2.7 TYP 2.00 0.85 MAX 5.5 10 180 120 0.12 0.12 0.20 0.20 ±20 2.40 1.02 1.00 0.8 ±1 2.00 0.01 120 80 0.07 0.08 0.12 0.13 ● ● ● ● ● 1.60 0.68 2.0 ● ● 0.50 UNITS V µA µA µA Ω Ω Ω Ω µA A A V V µA ms increase the ON resistance of the switch. The LTC1478 GND pins must be connected together. (See Pin Functions and Block Diagram for more detail.) Note 3: Other channel turned OFF, i.e. AEN and BEN = 0V. Note 4: The output is protected with fold-back current limit which reduces the short-circuit (0V) currents below peak permissible current levels at higher output voltages. (See Typical Performance Characteristics for further detail on output current versus output voltage). LTC1477/LTC1478 U W TYPICAL PERFORMANCE CHARACTERISTICS Supply Current (ON) 0.30 TA = 25°C OUTPUT TURNED ON, NO LOAD 0.30 TA = 25°C 0.25 200 150 100 50 0.25 0.20 VIN2 = VIN3 = NC 0.15 0.10 0.05 0 1 2 3 4 SUPPLY VOLTAGE (V) 5 0 6 SWITCH RESISTANCE (Ω) SWITCH RESISTANCE (Ω) SUPPLY CURRENT (µA) 250 0 Switch Resistance (5V) Switch Resistance 300 6 3 4 5 INPUT VOLTAGE (V) 2 LTC1477/1478 • TPC01 VINS = VIN1 = 5V VIN2 = VIN3 = NC 0.15 0.10 ALL VIN PINS = 5V 0.05 ALL VIN PINS CONNECTED 1 0.20 0 7 0 LTC1477/1478 • TPC02 Switch Resistance (3.3V) LTC1477/1478 • TPC03 Output Current (5V) Short-Circuit Current 0.30 6 3.0 TA = 25°C TJ = 25°C 0.15 ALL VIN PINS = 3.3V 0.05 0 0 25 50 75 100 JUNCTION TEMPERATURE (°C) 2.0 1.5 1 2 3 4 SUPPLY VOLTAGE (V) INRUSH CURRENT (A) TA = 25°C 4 6 CURRENT LIMITED 2 1 0 3 ALL VIN PINS = 3.3V 2 VIN2 = VIN3 = NC 2 3 4 OUTPUT VOLTAGE (V) 5 6 LTC1477/1478 • TPC07 VIN2 = VIN3 = NC 0 1 2 3 4 OUTPUT VOLTAGE (V) 4 0 –0.4 TJ = 25°C ALL VIN PINS = 5V 0 0.4 6 LTC1477/1478 • TPC06 3 2 CURRENT LIMITED 0.8 1.2 1.6 TIME (ms) 2.0 2.4 2.8 LTC1477/1478 • TPC08 TJ = 25°C ALL VIN PINS = 3.3V 1 0 COUT = 470µF ROUT = 10Ω 6 2 5 Inrush Current (3.3V) 3 COUT = 10µF ROUT = 10Ω OUTPUT VOLTAGE (V) OUTPUT CURRENT (A) 5 1 5 Inrush Current (5V) 6 0 ALL VIN PINS = 5V 2 LTC1477/1478 • TPC05 Output Current (3.3V) 0 3 0 0 LTC1477/1478 • TPC04 1 4 1 0.5 0 125 VIN2 = VIN3 = NC 1.0 INRUSH CURRENT (A) 0.10 ALL VIN PINS CONNECTED OUTPUT CURRENT (A) VINS = VIN1 = 3.3V VIN2 = VIN3 = NC 5 2.5 OUTPUT VOLTAGE (V) 0.20 SHORT-CIRCUIT CURRENT (A) SWITCH RESISTANCE (Ω) 0.25 125 25 50 75 100 JUNCTION TEMPERATURE (°C) COUT = 10µF ROUT = 10Ω COUT = 470µF ROUT = 10Ω 6 4 2 0 –0.4 0 0.4 0.8 1.2 1.6 TIME (ms) 2.0 2.4 2.8 LTC1477/1478 • TPC09 3 LTC1477/LTC1478 U U U PIN FUNCTIONS LTC1477 LTC1478 EN (Pin 4): The enable input is a high impedance CMOS gate with an ESD protection diode to ground and should not be forced below ground. This input has about 100mV of built-in hysteresis to ensure clean switching. AEN, BEN (Pins 4,12): The enable inputs are high impedance CMOS gates with ESD protection diodes to ground and should not be forced below ground. These inputs have about 100mV of built-in hysteresis to ensure clean switching. VINS, VIN1 (Pins 3,2): The VINS supply pin must always be connected to the VIN1 supply pin (see Block Diagram). The VINS supply pin provides power for the input control logic, the current limit and thermal shutdown circuitry; plus provides a sense connection to the input power supply. The gate of the NMOS switch is powered by a charge pump from the VINS supply pin (see Block Diagram). The VIN1 supply pin provides connection to the drain of 1/2 of the output power device. VIN2, VIN3 (Pins 7,6): The VIN2 and VIN3 supply pins are typically tied to the VINS and VIN1 supply pins for lowest ON resistance; i.e., when all four VIN pins are connected together the entire power device is connected (see Block Diagram). Each auxiliary supply pin, VIN2 and VIN3, is connected to the drain of 1/4 of the power device. The VIN2 and VIN3 pins can be selectively disconnected to reduce the short-circuit current limit at the expense of higher RDS(ON). (See Applications Information section for more details.) VOUT (Pins 1,8): The output pins of the LTC1477 must always be tied together. The output is protected against accidental short circuits to ground by a current limit circuit which protects the system power supply and load against damage. A second level of protection is provided by thermal shutdown circuitry which limits the die temperature to 130°C. 4 AVINS, AVIN1, BVINS, BVIN1 (Pins 3,2; 11,10): The AVINS or BVINS supply pin must always be connected to the AVIN1 or BVIN1 supply pin (see Block Diagram). The AVINS and BVINS supply pins provide power for the input control logic, the current limit and thermal shutdown circuitry; plus, provides a sense connection to the input power supply. The gate of the NMOS switch is powered by a charge pump from the AVINS and BVINS supply pins (see Block Diagram). The AVIN1 and BVIN1 supply pins provide connection to the drain of 1/2 of the output power device. AVIN2, AVIN3, BVIN2, BVIN3, (Pins 15,14; 7,6): The AVIN2, AVIN3, BVIN2 and BVIN3 supply pins are typically tied to the AVINS, AVIN1, BVINS and BVIN1 supply pins for lowest ON resistance; i.e., when all four AVIN, BVIN pins are connected together the entire power device is connected (see Block Diagram). Each auxiliary supply pin, AVIN2, AVIN3, BVIN2 and BVIN3, is connected to the drain of approximately 1/4 of the corresponding power device. The AVIN2, AVIN3, BVIN2 and BVIN3 pins can be selectively disconnected to reduce the short-circuit current limit at the expense of higher RDS(ON). (See Applications Information section for more details.) AVOUT, BVOUT (Pins 1,16; 8,9): The outputs of the LTC1478 are protected against accidental short circuits to ground by a current limit circuit which protects the system power supplies and loads against damage. A second level of protection is provided by thermal shutdown circuitry which limits the die temperature to approximately 130°C. LTC1477/LTC1478 U OPERATION (LTC1477 or single channel of LTC1478) Input TTL-CMOS Converter The LTC1477 enable input is designed to accommodate a wide range of 3V and 5V logic families. The input threshold voltage is approximately 1.4V with 100mV of hysteresis. The input enables the bias generator, the gate charge pump and the protection circuitry. Therefore, when the enable input is turned off, the entire circuit is powered down and the supply current drops below 1µA. Ramped Switch Control The LTC1477 gate charge pump includes circuitry which ramps the NMOS switch on slowly (1ms typical rise time) but turns it off much more quickly (typically 20µs). Bias, Oscillator and Gate Charge Pump When the switch is enabled, a bias current generator and high frequency oscillator are turned on. The on-chip capacitive charge pump generates approximately 12V of W BLOCK DIAGRAM gate drive for the internal low RDS(ON) NMOS switch from the power supply. No external 12V supply is required to switch the output. Switch Protection Two levels of protection are designed into the power switch in the LTC1477. The switch is protected against accidental short circuits with a current limit circuit which limits the output current to typically 2A when the output is shorted to ground. The LTC1477 also has thermal shutdown set at approximately 130°C which limits the power dissipation to safe levels. LTC1478 Operation The LTC1478 dual protected switch can be thought of as two independent LTC1477 single protected switches. The input supply voltages may be from separate power sources. The ground connection, however, is common to both channels and must be connected to the same potential. (LTC1477 or single channel of LTC1478) VIN1 VINS VIN2 VIN3 GATE CHARGE AND DISCHARGE CONTROL LOGIC EN TTL-TO-CMOS CONVERTER OSCILLATOR AND BIAS CHARGE PUMP CURRENT LIMIT AND THERMAL SHUTDOWN VOUT LTC1477/1478 • BD01 U W U U APPLICATIONS INFORMATION Tailoring ILIMIT and RDS(ON) for Load Requirements The LTC1477 is designed to current limit at approximately 2A during a short circuit with all the VIN pins connected to the input power supply. It is possible however, to reduce this current by selectively disconnecting two of the four power supply pins (VIN2 and VIN3). Table 1 lists the effects of disconnecting these pins on RDS(ON) and short-circuit current limit Table 1. Effects of Disconnecting VIN2 and VIN3 ALL VIN PINS CONNECTED RDS(ON) 0.07Ω ILIMIT 2A Note: 5V Operation VIN3 DISCONNECTED VIN2 AND VIN3 DISCONNECTED 0.09Ω 1.5A 0.12Ω 0.85A Note that there is an inverse relationship between output current limit and switch resistance. This allows the tailor- 5 LTC1477/LTC1478 U W U U APPLICATIONS INFORMATION ing of the switch parameters to the expected load current and system current limit requirements. A couple of examples are helpful: 1. If a nominal load of 1A was controlled by the switch configured to current limit at 2A (all VIN pins connected together), the RDS(ON) would be 0.07Ω and the voltage drop across the switch would be 70mV. The power dissipated by the switch would only be 70mW. 2. If a nominal load of 0.5A was controlled by the switch configured to current limit at 0.85A (VIN2 and VIN3 disconnected), the RDS(ON) would increase to 0.14Ω. But the voltage drop would remain at 70mV and the switch power dissipation would drop to 35mW. Supply Bypassing For best results, bypass the supply input pins with a single 1.0µF capacitor as close as possible to the LTC1477. Sometimes, much larger capacitors are already available at the output of the power supply. In this case, it is still good practice to use a 0.1µF capacitor as close as possible to the LTC1477, especially if the power supply output capacitor is more than 2 inches away on the printed circuit board. Output Capacitor The output pin is designed to ramp on slowly, typically 1ms rise time. Therefore, very large output capacitors can be driven without producing voltage spikes on the supply pins (see graphs in Typical Performance Characteristics). The output pin should have a 1µF capacitor for noise reduction and smoothing. Supply and Input Sequencing The LTC1477 is designed to operate with continuous power (quiescent current drops to < 1µA when disabled). If the power must be turned off, for example to enter a system “sleep” mode, the enable input must be turned off 100µs before the input supply is turned off to ensure that the gate of the NMOS switch is completely discharged before power is removed. However, the input control and power can be applied simultaneously during power up. U TYPICAL APPLICATIONS 2A Protected Switch 1.5A Protected Switch 2.7V TO 5.5V 2.7V TO 5.5V ISC = 1.5A ISC = 2A 0.1µF + 0.1µF VOUT VOUT VIN2 VIN1 VIN2 VINS VIN3 VINS VIN3 EN GND EN GND VOUT VOUT VIN1 1µF ON/OFF LTC1477/1478 • TA03 0.85A Protected Switch ISC = 0.85A LTC1477/1478 • TA04 2.7V TO 5.5V VOUT + VOUT VOUT VIN1 VIN2 NC VINS VIN3 NC EN GND 1µF 0.1µF VOUT VOUT VIN1 LTC1477 ON/OFF NC 2A Protected Switch Driving a Large Capacitive Load 2.7V TO 5.5V 0.1µF 1µF LTC1477 LTC1477 ON/OFF + + CLOAD 100µF VIN2 LTC1477 ON/OFF VINS VIN3 EN GND LTC1477/1478 • TA05 LTC1477/1478 • TA06 6 LTC1477/LTC1478 U TYPICAL APPLICATIONS Adding Short-Circuit Protection to an LT1301 Step-Up Switching Regulator (0.01µA Standby Current) D1 MBRS130LT3 L1* 10µH 12V + 5V 100µF 10V 0.1µF VOUT VOUT VIN1 VIN2 2 6 7 VIN SW SEL SENSE + LT1301 LTC1477 ON/OFF 4 VINS VIN3 EN GND 3 47µF 16V TANT 0.1µF SHDN ILIM 5 NC GND PGND 8 1 *COILCRAFT DO1608-103 DN117 • F03 5V to 3.3V Selector Switch with Slope Control and 0.01µA Standby Current 5V 5V/2A OR 3.3V/2A 0.1µF 5V ON/OFF* AVOUT AVOUT AVIN1 AVIN2 AVINS AVIN3 + 1k 100µF 10V GND AEN LTC1478 BEN GND 3.3V BVIN3 BVINS 0.1µF BVIN2 BVIN1 BVOUT BVOUT 3.3V ON/OFF* LTC1477/1478 • TA08 *ALLOW AT LEAST 100ms BETWEEN 5V AND 3.3V SWITCHING FOR DISCHARGE OF 100µF OUTPUT CAPACITOR Single Li-Ion Cell to 5V Converter/Switch with Load Disconnect Below 2.7V 22µH SUMIDA CD54-220 (2.7V to 4.2V) + 100µF 16V 562k 1% 220k NC SINGLE Li-Ion CELL* 6 1 432k 1% 7 MBRS130LT3 (5V) 3 4 VIN SW ILIM SENSE LT1304CS8-5 + VOUT 8 + LBI LBO SHDN 2 100µF 10V TANT 1µF VOUT VIN1 5V VIN2 NC VIN3 NC LTC1477 VINS EN 5 GND LTC1477/1478 • TA09 *PRIMARY Li-Ion BATTERY PROTECTION MUST BE PROVIDED BY AN INDEPENDENT CIRCUIT Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of its circuits as described herein will not infringe on existing patent rights. 7 LTC1477/LTC1478 U PACKAGE DESCRIPTION Dimension in inches (millimeters) unless otherwise noted. S8 Package 8-Lead Plastic Small Outline (Narrow 0.150) 0.189 – 0.197* (4.801 – 5.004) (LTC DWG # 05-08-1610) 0.010 – 0.020 × 45° (0.254 – 0.508) 0.008 – 0.010 (0.203 – 0.254) 6 5 0.004 – 0.010 (0.101 – 0.254) 0°– 8° TYP 0.016 – 0.050 0.406 – 1.270 7 8 0.053 – 0.069 (1.346 – 1.752) *DIMENSION DOES NOT INCLUDE MOLD FLASH. MOLD FLASH SHALL NOT EXCEED 0.006" (0.152mm) PER SIDE **DIMENSION DOES NOT INCLUDE INTERLEAD FLASH. INTERLEAD FLASH SHALL NOT EXCEED 0.010" (0.254mm) PER SIDE 0.150 – 0.157** (3.810 – 3.988) 0.228 – 0.244 (5.791 – 6.197) 0.050 (1.270) BSC 0.014 – 0.019 (0.355 – 0.483) SO8 0695 1 3 2 4 S Package 16-Lead Plastic Small Outline (Narrow 0.150) (LTC DWG # 05-08-1610) 0.386 – 0.394* (9.804 – 10.008) 16 15 14 13 12 11 10 9 0.150 – 0.157** (3.810 – 3.988) 0.228 – 0.244 (5.791 – 6.197) 1 0.010 – 0.020 × 45° (0.254 – 0.508) 0.008 – 0.010 (0.203 – 0.254) 2 3 5 4 0.053 – 0.069 (1.346 – 1.752) 0.014 – 0.019 (0.355 – 0.483) 7 8 0.004 – 0.010 (0.101 – 0.254) 0° – 8° TYP 0.016 – 0.050 0.406 – 1.270 6 0.050 (1.270) TYP S16 0695 *DIMENSION DOES NOT INCLUDE MOLD FLASH. MOLD FLASH SHALL NOT EXCEED 0.006" (0.152mm) PER SIDE **DIMENSION DOES NOT INCLUDE INTERLEAD FLASH. INTERLEAD FLASH SHALL NOT EXCEED 0.010" (0.254mm) PER SIDE RELATED PARTS PART NUMBER DESCRIPTION COMMENTS LTC1153 Electronic Circuit Breaker MOSFET Driver with Adjustable Reset Time LTC1154 Single High Side Driver MOSFET Driver with Switch Status Output LTC1155 Dual High Side Driver Dual MOSFET Driver with Protection LTC1470 5V and 3.3V VCC Switch SafeSlotTM Protected Switch in 8-Lead SO LTC1471 Dual 5V and 3.3V VCC Switch Dual Version of LTC1470 in 16-Lead SO LTC1472 PCMCIA VCC and VPP Switches Complete Single Channel SafeSlot Protection SafeSlot is a trademark of Linear Technology Corporation. 8 Linear Technology Corporation LT/GP 0995 10K • PRINTED IN USA 1630 McCarthy Blvd., Milpitas, CA 95035-7417 (408) 432-1900 ● FAX: (408) 434-0507 ● TELEX: 499-3977 LINEAR TECHNOLOGY CORPORATION 1995