AAT4621 PC Card Current Limit Interface and Capacitor Charger General Description Features The AAT4621 SmartSwitch is a current limited Pchannel MOSFET power switch designed for highside load-switching applications in PC Card GSM/GPRS/3G modem cards. Used in conjunction with a super capacitor, the AAT4621 will ensure that the power ratings of the PCMCIA host are not exceeded at any time. Featuring two independent, programmable current limits and a power loop, the AAT4621 can ensure that the super capacitor can be charged without exceeding PCMCIA specifications. The current limit is set by two external resistors allowing a ±10% current limit accuracy over the normal operating temperature range. The switch can be controlled from either of the two enable inputs and in the off condition will block currents in both directions. The AAT4621 also incorporates a System READY function which can advise the system that the super capacitor is fully charged and ready for use. Adjustable hysteresis is provided with the addition of an external resistor. The quiescent supply current is typically a low 40µA. In shutdown mode, the supply current decreases to less than 1µA. • • The AAT4621 is available in a thermally enhanced, Pb-free, 12-pin TSOPJW or 14-pin TDFN33 package and is specified over the -40°C to 85°C temperature range. • • • • • • • • • SmartSwitch™ VIN Range: 3.0V to 5.5V Dual Independent Current Limits — 75mA to 1200mA — ±10% Current Accuracy — 20°C Temperature Band Reverse Current Blocking Protection Power Loop Low Quiescent Current — 40µA Typical — 1.0µA Max with Switch Off 65mΩ Typical RDS(ON) at 3V Only 1.4V Needed for Enable Control Pin System READY Output with Externally Programmable Hysteresis Under-Voltage Lockout Temperature Range: -40 to 85°C 12-Pin TSOPJW Package or 14-Pin TDFN33 Package Applications • • • • • Capacitor Charger CF Card Port Power Protection Express Card GSM/GPRS/3G Modems PC Card GSM/GPRS Class 10/12 Modems WiMAX Cards Typical Application 100kΩ Reverse Blocking VCC OUT To Load RDY To μC V CC Over-Temp Protection Power Loop UnderVoltage Lockout EN IL ENSUPERCAP EN OPERATION EN IU 1.2V Reference Current Limit Control ISETL ISETU GND SuperCap R HYS 4621.2007.07.1.0 R SETU R SETL 1 AAT4621 PC Card Current Limit Interface and Capacitor Charger Pin Descriptions Pin # TSOPJW-12 TDFN33-14 Symbol 1 14 EN IU 2 13 EN IL 3 4, 5, 6 12 8, 9, 10, 11 GND VCC 7, 8 5, 6, 7 OUT 9 4 ISETL 10 3 ISETU 11 2 RHYS 12 1 RDY Function Enable input. Active low enable with internal pull up. Also switches in the higher current limit to allow the System to start functioning. Can be directly connected to System Ready for automatic enabling. When both EN IL B and EN IU B are enabled, ISETU will be selected. Enable input. Active low enable with internal pull up. Also switches in the lower current limit initiating the super capacitor to start charging. Device ground connection. Input pins to the P-channel MOSFET source. Connect 1µF capacitor from VCC to GND. P-channel MOSFET drain connection. Connect to super capacitor from OUT to GND. Lower current-limit set input. A resistor from ISETU to ground sets the maximum lower current limit for the switch. Current limit can be set between 75mA and 1200mA. Upper current limit set input. A resistor from ISETL to ground sets the maximum upper current limit for the switch. Current limits can be set between 75mA and 1200mA. Connect to ground to disable current limit. System READY hysteresis. Connect a resistor to ground to set the System Ready comparator hysteresis. System ready pin. Open drain, active low, initiated when the capacitor is 98% charged. Pin Configuration TSOPJW-12 (Top View) EN IU EN IL GND VCC VCC VCC 2 1 12 2 11 3 10 4 9 5 8 6 7 TDFN33-14 (Top View) RDY RHYS ISETU ISETL OUT OUT RDY RHYS ISETU ISETL OUT OUT OUT 1 14 2 13 3 12 4 11 5 10 6 9 7 8 ENIU ENIL GND VCC VCC VCC VCC 4621.2007.07.1.0 AAT4621 PC Card Current Limit Interface and Capacitor Charger Absolute Maximum Ratings1 Symbol VCC VEN VSET, VOUT IMAX Description VCC to GND EN to GND SET, OUT to GND Maximum Continuous Switch Current Value Units -0.3 to 6 -0.3 to VCC + 0.3 -0.3 to VCC + 0.3 2.5 V V V A Value Units Thermal Characteristics Symbol Description θJA Maximum Thermal Resistance2 PD Maximum Power Dissipation2 TJ Operating Junction Temperature Range TSOPJW-12 TDFN33-14 TSOPJW-12 TDFN33-14 160 50 625 2 -40 to 150 °C/W mW W °C 1. Stresses above those listed in Absolute Maximum Ratings may cause permanent damage to the device. Functional operation at conditions other than the operating conditions specified is not implied. Only one Absolute Maximum Rating should be applied at any one time. 2. Mounted on an FR4 board. 4621.2007.07.1.0 3 AAT4621 PC Card Current Limit Interface and Capacitor Charger Electrical Characteristics1 VCC = 3.0V to 5.5V, TA = -40°C to 85°C unless otherwise noted. Typical values are at TA = 25°C. Symbol VCC IQ IQU0 Description Conditions Operation Voltage Quiescent Current Quiescent Current U0 Off Supply Current Off Switch Current Under-Voltage Lockout RDS(ON) On-Resistance ILIMLACC Lower Current Limit Accuracy ILIMUACC Upper Current Limit Accuracy ILIM(MIN) VEN(L) VEN(H) IEN(SINK) TDEL(OFF) Lower Minimum Current Limit EN Input Low Voltage EN Input High Voltage EN Input Leakage Turn-Off Delay Time VCC =3.0V to 5.5V2 VCC = 3.0V to 5.5V2 VEN = 5.5V VCC = 5V System READY Trip Threshold VOUT rising, TA = 25°C System READY Hysteresis System READY Voltage Low RDY Leakage Current Shutdown Temperature RHYS = 200kΩ ISINK = 1mA VRDY < 5.5V, VOUT < 98% of VOUT VRDYHYS VRDY(L) IRDY OTMP Typ Max Units 5.5 V 40 75 µA 40 75 µA 0.4 0.4 2.7 50 65 200 200 1000 1000 75 1.0 10 3.0 100 120 220 230 1100 1150 µA µA V 3.0 EN IL or EN IU = VCC, IOUT = 0, RHYS = 200kΩ EN IL = VCC, EN IU = GND, IOUT = 0, ISET = GND, RHYS = 200kΩ EN IL = EN IU = VCC EN IL = EN IU = VCC, VSUPERCAP = 0 Rising edge, 1% hysteresis VCC =4.75V, RSETL = RSETU = 0k VCC =3.0V, RSETL = RSETU = 0k RSETL = 249kΩ; ΔTA ≤ 20°C RSETL = 249kΩ RSETU = 1.24MΩ; ΔTA ≤ 20°C RSETU = 1.24MΩ IQ(OFF) ISD(OFF) VUVLO VRDY Min 180 170 900 850 0.4 1.4 0.4 98 1.0 1.0 200 0.4 1.0 145 mΩ mA mA mA V V µA µs % of VOUT mV V µA °C 1. The AAT4621 is guaranteed to meet performance specification over the -40°C to 85°C operating temperature range and is assured by design, characterization and correlation with statistical process controls. 2. For VIN outside this range consult the Typical EN Threshold curve. 4 4621.2007.07.1.0 AAT4621 PC Card Current Limit Interface and Capacitor Charger Typical Characteristics RSET vs. ILIM Output Current vs. Output Voltage (25°°C) (RSETU = 249KΩ Ω; T = 25°C) 1.40 0.25 1.20 VIN = 5V 1.00 0.20 ILIM (A) Output Current (A) 0.30 0.15 0.10 VIN = 3.3V 0.60 VIN = 5V 0.40 0.05 0.20 0.00 0.00 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 0 5 200 400 600 800 1000 1200 1400 1600 Output Voltage (V) RSET (kΩ) Reverse Off-Switch Current vs. Temperature Off-Switch Current vs. Temperature (ENUB = ENLB = VCC; VIN = 0V) (ENUB = ENLB = VCC; VOUT = 0V) 100 100 10 10 VOUT = 5V ISD(OFF) (µA) IRSD(OFF) (µA) VIN = 3.3V 0.80 1 0.1 VOUT = 3.3V VIN = 5V 1 0.1 VIN = 3.3V 0.01 -40 -20 0 20 40 60 80 100 120 Temperature (°°C) 0.01 -40 -20 0 20 40 60 80 100 120 Temperature (°°C) Off-Supply Current vs. Temperature (ENUB = ENLB = VCC; VOUT = Open) 10 IQ(OFF) (µA) VIN = 5V 1 0.1 VIN = 3.3V 0.01 -40 -20 0 20 40 60 80 100 120 Temperature (°°C) 4621.2007.07.1.0 5 AAT4621 PC Card Current Limit Interface and Capacitor Charger Typical Characteristics RDS(ON) vs. Input Voltage RDS(ON) vs. Temperature (RSET = 0kΩ Ω) (RSET = 0Ω Ω) 90 70 80 RDS(ON) (mΩ) RDS(ON) (mΩ) 65 60 55 50 VIN = 3V 70 60 50 VIN = 5V 40 45 2.5 3 3.5 4 4.5 5 30 -40 5.5 -20 0 20 40 60 80 100 Temperature (°C) Input Voltage (V) VRHYS vs. RRHYS ILIM vs. Temperature (VIN = 4V; VOUT = 3.85V; ENLB = 0V; RSETL = 249kΩ Ω) 2.00 205 1.80 200 1.40 ILIM (mA) VRHYS (V) 1.60 1.20 1.00 0.80 0.60 195 190 0.40 0.20 185 0.00 0 500 1000 1500 -50 -25 0 RRHYS (kΩ Ω) 100 (ENUB = 0V; ENLB = VCC; or ENLB = 0V; ENUB = VCC;VOUT = Open) 1020 55 1010 50 IQU (µA) 1000 ILIM (mA) 75 Quiescent Current IQU vs. Temperature ILIM vs. Temperature 990 980 VIN = 5V 45 40 35 970 30 960 -25 0 25 50 Temperature (°C) 6 50 Temperature (°C) (VIN = 4V; VOUT = 3.85V; ENUB = 0V; RSETU = 1.3MΩ Ω) 950 -50 25 75 100 25 -40 VIN = 3.3V -20 0 20 40 60 80 100 120 Temperature (°°C) 4621.2007.07.1.0 AAT4621 PC Card Current Limit Interface and Capacitor Charger Typical Characteristics VIH and VIL vs. Input Voltage VIH and VIL vs. Input Voltage (ENUB = Open; Vary ENLB; T = 25°C) (ENLB = Open; Vary ENUB; T = 25°C) 1.1 1.1 VIH VIH 1.0 VIH and VIL (V) VIH and VIL (V) 1.0 0.9 0.8 VIL 0.9 0.8 VIL 0.7 0.7 0.6 2.5 3.5 4.5 5.5 6.5 7.5 0.6 2.5 Input Voltage (V) 3.5 4.5 Input Voltage (V) Output Voltage (V) 0.8 0.6 0.4 0.2 0.0 Output Current (A) 1.0 6 4 VIN 2 VOUT 0 1.5 1.0 IOUT 0.0 Time (2ms/div) Time (20ms/div) Hard Short Circuit (VIN = 3.3V) (VIN = 3.3V) Input Voltage (V) Output Voltage (V) VIN and VOUT 3 IOUT 0.4 0.2 0.0 Time (2ms/div) 4621.2007.07.1.0 0.6 Output Current (A) 5 4 2 0 VIN VOUT 1.5 1.0 IOUT 0.5 0.0 Output Current (bottom) (A) 6 Input Voltage (top) (V) Output Voltage (middle) (V) Soft Short Circuit with 5Ω Ω Series Impedance 4 0.5 Output Current (bottom) (A) VIN and VOUT Input Voltage (top) (V) Output Voltage (middle) (V) (VIN = 5V) 6 I OUT 7.5 Hard Short Circuit (VIN = 5V) 4 6.5 Input Voltage (V) Soft Short Circuit with 5Ω Ω Series Impedance 5 5.5 Time (20ms/div) 7 AAT4621 PC Card Current Limit Interface and Capacitor Charger Typical Characteristics Charging Profile Charging Profile (ILIMIT = 150mA; VIN = 4.5V; CO = 0.55F) (ILIMIT = 1A; ENIU = 0V; VIN = 4.5V; CO = 0.55F) 6 2 0 0.15 0.10 I OUT 0.05 0.00 Output Voltage (V) VOUT 4 0.4 IOUT 0.2 0.0 1.5 1.0 0.5 0.0 -0.5 Input Voltage (top) (V) Output Voltage (middle) (V) 2.0 VIN = 3.83V VOUT = 3.76V 2.0 1.5 1.0 I OUT 0.5 0.0 -0.5 Output Current (bottom) (A) Input Voltage (top) (V) Output Voltage (middle) (V) 0.6 GSM900 GPRS Class 12 Transmit 2-Slot Ch975, 33dBm Output Current (bottom) (A) 8 0.8 Time (1s/div) VIN = 3.83V Time (1ms/div) 1.0 0 GSM900 GPRS Class 12 Transmit 1-Slot Ch975, 33dBm I OUT VOUT 2 Time (5s/div) VOUT = 3.80V Thermal Foldback Output Current (A) 4 Output Current (A) Output Voltage (V) 6 Time (1ms/div) 4621.2007.07.1.0 AAT4621 PC Card Current Limit Interface and Capacitor Charger Functional Block Diagram Reverse Blocking OUT VCC Over-Temp Protection Power Loop UnderVoltage Lockout RDY EN IL EN IU 1.2V Reference Current Limit Control GND Functional Description The AAT4621 is an integrated P-channel MOSFET load switch with an upper and lower adjustable current limits which can be enabled independently, over temperature protection, a power loop and a super capacitor charger. The current limit control is combined with an over temperature thermal limit and power loop circuit to provide a comprehensive system to protect the load switch and its supply from load conditions which exceed the supply specifications. The AAT4621 has been designed specifically to provide the interface between a PCMCIA 4621.2007.07.1.0 ISETL ISETU RHYS host and PC card where a super capacitor has been used to "average out" high pulse currents which would otherwise exceed the PCMCIA/ Express Card power specifications. e.g. GSM/ GPRS modem cards, where pulse currents during transmit signals can exceed the 1A maximum specification (1.3A in the case of Express Card). The current limit and over temperature circuits act independently. The device current limit is activated when the output load current exceeds an internal threshold level. There are two internal current limits which are enabled independently. The current limit threshold in each case is determined by exter- 9 AAT4621 PC Card Current Limit Interface and Capacitor Charger nal resistors connected between the two SET pins and ground. The minimum current limit threshold is specified by ILIM(MIN). If the load condition maintains the device in current limit and the chip temperature reaches a critical point, then an internal power loop will reduce the current to a safe level. Connecting ISETU to ground disables the current limit protection allowing a low impedance path to the host VCC. The load switch is turned off by applying a logic high level to both of the EN pins. When both EN IL and EN IU are selected ISETU will be selected. The EN function has logic level thresholds that allow the AAT4621 to be TTL compatible and may also be controlled by 2.5V to 5.0V CMOS circuits. The voltage level applied to the EN pins should not exceed the input supply level present on the VCC pin. The AAT4621 typically consumes 40µA when operating, when off, the device draws less then 1µA. In the off state, current is prevented from flowing between the input and output. Under-voltage lockout circuitry ensures that the VCC supply is high enough for correct operation of the IC. Also included is a System Ready function which will be activated when the capacitor voltage is charged and the load is permitted to take current. For automatic functionality, this pin can be directly connected to the EN IU pin. An external resistor is provided to add hysteresis to this function. Application Information ISETU and ISETL Current Limit Set The AAT4621 current limit is set at two different levels. Resistors from ISETL and ISETU set the lower and upper current limit levels respectively. The ISETL and ISETU nodes operate within a window of 0.75V to 1.5V for resistor values ranging from 93.75Ω to 1.5MΩ. Resistor values outside this range are not recommended. The ISETL and ISETU source current varies with the resistor value used according to Table 1. To determine the resulting current limit multiply the RSETU or RSETL node voltage times the gain in Table 1. Note that the voltage at the node varies from 0.75V to 1.5V and the current limit gain varies depending on the resistor value used. VISET = RSET · IISET = 0.75V to 1.5V If the set pin is open circuit or allowed to exceed 2V, all power devices are disabled and the input is disconnected from the output. Shorting the set pin to GND enables all power devices and shorts the VCC to the output pin with no current limit. To activate the upper current level (RSETU) pull EN IU low. To activate the lower current level (RSETL) pull EN IL low. If both EN IU and EN IL are pulled low the EN IU current limit level (RSETU) will be selected. RSET Range IISET (µA) ILIM/VISET (A/V) Current Limit Range (A) Current Limit 1.5Meg - 750k 750k - 375k 375k - 187.5k 187.5 - 93.75k 1 2 4 8 0.8 0.4 0.2 0.1 1.2-0.6 0.6-0.3 0.3-0.15 0.15-0.075 RSET*1µA*0.8 RSET*2µA*0.4 RSET*4µA*0.2 RSET*8µA*0.1 Table 1: RSET Table. 10 4621.2007.07.1.0 AAT4621 PC Card Current Limit Interface and Capacitor Charger die temperature is less than 110°C, it increases the load current in increments of 1/32 of the current limit set point until the set current limit point is reached or the die temperature exceeds 110°C. ILOAD vs. RSETU and RSETL 1.2 ILOAD Limit (A) 1.0 The delay time between die temperature measurements varies depending on the load current limit set point. The delay ranges from 0.5ms for a 75mA current limit set point to 4ms for a 1.2A current limit set point. 0.8 0.6 0.4 0.2 0.0 0.10 0.30 0.50 0.70 0.90 1.10 1.30 1.50 RSETU and RSETL (MΩ Ω) Figure 1: Calculated Current Limit RSET Characteristic. System Ready Hysteresis (RHYS) and System Ready (RDY) In internal comparator senses the output voltage and delivers a ready signal to the external micro controller when the output voltage reaches 98% of the final value (VCC). The comparator hysteresis is programmed by a resistor from the RHYS pin to ground. The RHYS voltage determines the hysteresis voltage and is equal to the RHYS source current (1µA) times the RHYS resistance. VHYST = RHYS · 1μA = 200kΩ · 1μA = 0.2V The system ready pin (RDY) is an open drain output that switches low when the output voltage reaches 98% of the input voltage. It requires an external pull up resistor tied to the input voltage with a typical value of 100kΩ. Power Loop The AAT4621 power loop limits the load current in the event that the device power dissipation becomes excessive. The AAT4621 power loop regulates the die temperature to 110°C, decreasing the load current in increments of 1/32 of the current limit set point when the die temperature reaches 110°C. When the die temperature exceeds 110°C it decreases the load current by 1/32 of the current limit set point. If 4621.2007.07.1.0 For the condition where there is no current limit set point (shorting RSETU or RSETL to ground) the soft start increments the current limit is 1/32 steps of 1.2A until the current reaches 1.2A, at which point the power MOSFET turns on fully. At this point, the current is limited by the RDS(ON) of the power MOSFET and other series resistance. The Power Loop and Over-Temperature Loop then takes control to limit the current until the output voltage has fully charged. Over-Temperature Protection If the die temperature rate of rise is fast enough to exceed the power loop regulated temperature, over-temperature shutdown disables the device. The over-temperature threshold is 145°C. After over-temperature shutdown, soft start is initiated once the die temperature drops to 130°C. Short Circuit Protection The series pass power MOSFET turns off completely after the output has charged to within 18mV of the input voltage. This protects the device in the event where a short circuit is applied to the output. After applying a short circuit or heavy load to the output, which causes the output to sink below the 18mV threshold plus some hysteresis, the current will immediately attempt to slew from zero to the final programmed value. The device will continue to output the current limit as long as the output is VIN 18mV or until the die temperature reaches 110ºC. If temperature foldback occurs, then the power loop will become active. Under-Voltage Shutdown Under-voltage lockout enables the device at 2.7V typical with 100mV of hysteresis. The maximum UVLO level is 3.0V. 11 AAT4621 PC Card Current Limit Interface and Capacitor Charger Digitally Programmed Soft Start Current Limit Reverse Current Blocking An internal comparator disables the internal pass transistor when the input voltage is less than the output voltage blocking any reverse current from the output to the input. At turn on, the digital soft start increases the load current in discrete levels equal to 1/32 of the final programmed current limit set point from zero to the final programmed current limit level. Evaluation Board Once the AAT4621 has fully charged the supercap, the soft start circuit is disabled. The soft start function will only reactivate under the following conditions: The evaluation board schematic is shown in Figure 2. The PCB layout for the TSOP package is shown in Figures 3 and 4. The TDFN package layout is shown in Figures 5 and 6. 1. The power source or enable is cycled off and back on. 2. The thermal shutdown is activated 3. Switching from ENU to ENL or vice versa or 4. Following an over current event e.g. a hard output short circuit. J2 3 R1 4.7K 2 1 D1 ENIU J1 1 ENIU RDY 12 RDY 3 2 2 ENIL RHYS 11 3 GND ISETU 10 4 VCC ISETL 9 5 VCC OUT 8 6 VCC OUT 7 1 ENIL VCC 2 GND 1 J4 AAT4621 C1 10μF C2 10μF R3 1.00M R2 200K R4 120K 1 Out 2 GND J3 Figure 2: AAT4621 Evaluation Board Schematic. 12 4621.2007.07.1.0 AAT4621 PC Card Current Limit Interface and Capacitor Charger Figure 3: AAT4621 TSOPJW-12 Evaluation Board PCB Top Side. Figure 4: AAT4621 TSOPJW-12 Evaluation Board PCB Bottom Side. 4621.2007.07.1.0 13 AAT4621 PC Card Current Limit Interface and Capacitor Charger Figure 5: AAT4621 TDFN33-14 Evaluation Board PCB Top Side Figure 6: AAT4621 TDFN33-14 Evaluation Board PCB Bottom Side 14 4621.2007.07.1.0 AAT4621 PC Card Current Limit Interface and Capacitor Charger Ordering Information Package Marking1 Part Number (Tape and Reel)2 TSOPJW-12 TDFN33-14 YWXYY AAT4621ITP-T1 AAT4621IWO-T1 All AnalogicTech products are offered in Pb-free packaging. The term “Pb-free” means semiconductor products that are in compliance with current RoHS standards, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. For more information, please visit our website at http://www.analogictech.com/pbfree. Package Information3 TSOPJW-12 2.85 ± 0.20 2.40 ± 0.10 0.10 0.20 +- 0.05 0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC 7° NOM 0.04 REF 0.055 ± 0.045 0.15 ± 0.05 + 0.10 1.00 - 0.065 0.9625 ± 0.0375 3.00 ± 0.10 4° ± 4° 0.45 ± 0.15 0.010 2.75 ± 0.25 All dimensions in millimeters. 1. XYY = assembly and date code. 2. Sample stock is generally held on part numbers listed in BOLD. 3. The leadless package family, which includes QFN, TQFN, DFN, TDFN and STDFN, has exposed copper (unplated) at the end of the lead terminals due to the manufacturing process. A solder fillet at the exposed copper edge cannot be guaranteed and is not required to ensure a proper bottom solder connection. 4621.2007.07.1.0 15 AAT4621 PC Card Current Limit Interface and Capacitor Charger TDFN33-14 Detail "A" 3.000 ± 0.050 2.500 ± 0.050 Index Area (D/2 x E/2) 3.000 ± 0.050 1.650 ± 0.050 Top View Bottom View Pin 1 Indicator (Optional) 0.180 ± 0.050 Side View 0.400 BSC 0.005 ± 0.005 0.203 REF 0.750 ± 0.050 0.425 ± 0.050 Detail "A" All dimensions in millimeters. © Advanced Analogic Technologies, Inc. AnalogicTech cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in an AnalogicTech product. No circuit patent licenses, copyrights, mask work rights, or other intellectual property rights are implied. AnalogicTech reserves the right to make changes to their products or specifications or to discontinue any product or service without notice. Except as provided in AnalogicTech’s terms and conditions of sale, AnalogicTech assumes no liability whatsoever, and AnalogicTech disclaims any express or implied warranty relating to the sale and/or use of AnalogicTech products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right. In order to minimize risks associated with the customer’s applications, adequate design and operating safeguards must be provided by the customer to minimize inherent or procedural hazards. Testing and other quality control techniques are utilized to the extent AnalogicTech deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarily performed. AnalogicTech and the AnalogicTech logo are trademarks of Advanced Analogic Technologies Incorporated. All other brand and product names appearing in this document are registered trademarks or trademarks of their respective holders. Advanced Analogic Technologies, Inc. 830 E. Arques Avenue, Sunnyvale, CA 94085 Phone (408) 737-4600 Fax (408) 737-4611 16 4621.2007.07.1.0