PRODUCT DATASHEET
AAT4684
OVPSwitchTM
General Description
The AAT4684 OVPSwitch™ is a member of AnalogicTech’s Application Specific Power MOSFET™ (ASPM™) product family. It is a P-channel MOSFET power switch with precise over-voltage protection control, designed to protect low-voltage systems against high-voltage faults up to +28V. If the input voltage exceeds the programmed over-voltage threshold, the P-channel MOSFET switch will be turned off to prevent damage to the output load circuits. The AAT4684 is available with an internally programmed over-voltage trip point or as an adjustable version programmed by two external resistors. The AAT4684 also includes an under-voltage lockout (UVLO) protection circuit, which will put the device into sleep mode at low input voltages only consuming < 1μA of current. The AAT4684 is offered in a small Pb-free, 12-pin TSOPJW package and is specified for operation over the -40°C to +85°C ambient temperature range.
Over-Voltage Protection Switch
Features
• • • • • Over-Voltage Protection Up to +28V Fixed or Adjustable Over-Voltage Protection Threshold 3V Under-Voltage Lockout Threshold Fast OVP Response: ▪ 1μs (Max) to Over-Voltage Transient Low Operation Quiescent Current ▪ 30μA Typical ▪ 1μA Max in Shutdown (Disabled) 100mΩ Typical (130mΩ max) RDS(ON) at 4.5V 1.8A Maximum Continuous Current Temperature Range: -40°C to 85°C Available in TSOPJW-12 Package
• • • •
Applications
• • • • • • Cell Phones Digital Still Cameras GPS MP3 Players Personal Data Assistants (PDAs) USB Hot Swap/Live Insertion Device
Typical Application (Adjustable Version)
VIO +5V
VIN 3V – 28V
IN
FLT
Fault Flag
AAT4684
OVP
1μF
EN
GND
OUT
VOUT
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PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Pin Descriptions
Pin # Fixed
1, 2, 9, 11, 12 3
Over-Voltage Protection Switch
Adj.
1, 2, 9, 12 3
Symbol
N/C FLT
Function
Not connected. Over-voltage fault reporting output pin. FLT goes low when input voltage exceeds the over-voltage threshold. An external pull up resistor to VIO (6.5V max) should be added. Enable pin, active low. An internal pull-down resistor is connected on this pin. Connect to Ground for normal operation. Connect to high (6.5V max) to shut down the device when it draws less than 1μA of current. Output pin. Connect a 0.1μF~47μF capacitor from OUT to GND. Power input pin. Connect 1μF capacitor from IN to GND. Ground connection pin. Over-voltage protection threshold input pin (Adjustable version only).
4 5, 6 7, 8 10 n/a
4 5, 6 7, 8 10 11
EN OUT IN GND OVP
Pin Configuration
TSOPJW-12 Fixed Version (Top View) TSOPJW-12 Adjustable Version (Top View)
N/C N/C FLT EN OUT OUT
1
12
N/C N/C GND N/C IN IN
N/C N/C FLT EN OUT OUT
1
12
N/C OVP GND N/C IN IN
2 3 4 5 6
11 10 9 8 7
2 3 4 5 6
11 10 9 8 7
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4684.2007.11.1.1
PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Absolute Maximum Ratings1
Symbol
VIN VOVP VFLT, VEN VOUT IMAX TJ
Over-Voltage Protection Switch
Description
IN to GND OVP to GND FLT, EN to GND OUT to GND Maximum Continuous Switch Current Operating Junction Temperature Range
Value
-0.3 to 30 -0.3 to 6.5 -0.3 to 6.5 VIN + 0.3 1.8 -40 to 150
Units
V V V V A °C
Thermal Characteristics
Symbol
θJA PD
Description
Maximum Thermal Resistance Maximum Power Dissipation2, 3
2
Value
160 625
Units
°C/W mW
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 a FR4 board. 3. Derate 6.25mW/°C above 25°C.
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PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Electrical Characteristics1
VIN = 5V, TA = -40°C to 85°C unless otherwise noted. Typical values are at TA = 25°C. Symbol
VIN IQ ISD(OFF) VUVLO VUVLO_HYS Adjustable VOVP_TH VOVP_HYS Fixed VIN_OVP_TH
Over-Voltage Protection Switch
Description
Normal Operation Voltage Range Operation Quiescent Current Shutdown Supply Current Under-Voltage Lockout Threshold Under-Voltage Lockout Hysteresis Over-Voltage Lockout Threshold, OVP Pin Over-Voltage Lockout Threshold Hysteresis, OVP Pin
Conditions
VIN = 5V, EN = 0V, IOUT = 0 EN = IN, VIN = 5.5V, VOUT = 0 Rising Edge
Min
3.0
Typ
30 3.0 0.1
Max
14 50 1 3.3
Units
V μA μA V V V mV V mV
Rising Edge
1.084
1.1 20 6.5 120
1.117
Input Over-Voltage Lockout Threshold, IN Pin Input Over-Voltage Lockout Threshold Hysteresis, VIN_OVP_HYS IN Pin MOSFET Switch RDS(ON) PMOS On-Resistance ID(OFF) Switch Off-Leakage Logic VEN(L) EN Input Low Voltage VEN(H) EN Input High Voltage EN Input Leakage IEN FLTOL FLT Output Voltage Low FLTIOL FLT Output Leakage Current TBLK_FLT FLT Blanking Time TD_FLT FLT Assertion Delay Time from Over-Voltage (OV) TRESP_OV TON TR TOFF TF Over-Voltage Response Time Turn Turn Turn Turn On Delay Time On RiseTime Off Delay Time Off Fall Time
Rising Edge
IOUT = 1800mA, TA = 25°C EN = VIN
100
130 1 0.4
mΩ μA V V μA V μA ms μs μs ms ms ms μs
1.6 VEN = 5.5V or 0V IFLT = 1mA From De-assertion of OV From Assertion of OV VIN = 5V, VOVP Rise to 1.13V from 1.07V in 1ns VIN = 5V; RO = 10Ω; CO = 1μF VIN = 5V; RO = 10Ω; CO = 1μF VIN = 5V; RO = 10Ω; CO = 1μF VIN = 5V; RO = 10Ω; CO = 1μF 5 0.5 2.0 0.4 1 15
10 1 0.7 10 1 6 20
1. The AAT4684 is guaranteed to meet performance specifications over the -40 to 85°C operating temperature range and is assured by design, characterization and correlation with statistical process controls.
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PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Typical Characteristics
Operation Quiescent Current vs. Supply Voltage
50 40
Over-Voltage Protection Switch
Operation Quiescent Current vs. Temperature
Quiescent Current (µA)
35 30 25 20 15
Quiescent Current (µA)
45 40 35 30 25 20 15 10 5 0 3 4 5 6 7 8 9 10 11 12 13 14
-40
-15
10
35
60
85
Supply Voltage (V)
Temperature (°C)
Shutdown Supply Current vs. Supply Voltage
Shutdown Supply Current (µA)
3.0 2.4 1.8 1.2 0.6 0.0 2 4 6 8 10 12 14 16 18 20 22 24 26 28
Shutdown Supply Current vs. Temperature
Shutdown Supply Current (µA)
0.35 0.28 0.21 0.14 0.07 0.00 -40
-15
10
35
60
85
Supply Voltage (V)
Temperature (°C)
Switch Off Leakage Current vs. Supply Voltage
Switch Off Leakage Current (µA)
0.014 160
PMOS On-Resistance vs. Temperature
On-Resistance (µA)
0.012 0.010 0.008 0.006 0.004 0.002 0.000 2 4 6 8 10 12 14 16 18 20 22 24 26 28
140 120 100 80 60 -40
-15
10
35
60
85
Supply Voltage (V)
Temperature (°C)
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PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Typical Characteristics
FLT Blanking Time vs. Temperature
12
Over-Voltage Protection Switch
FLT Blanking Time
(VIN = 5.0V)
FLT Blanking Time (ms)
11 10 9 8 7 -40 -15 10 35 60 85
VOUT (1V/div) FLT (2V/div) OVP (100mV/div)
5.0V 4.3V
0V 1.15V
Temperature (°C)
Time (2ms/div)
Undervoltage Lockout Threshold vs. Temperature
4.00
Over-Voltage Response Time vs. Temperature
Over-Voltage Response Time (ns)
800 750 700 650 600 550 -40
UVLO Threshold (V)
3.50
VIN Rising
3.00 2.50 2.00 1.50 -40 -15 10 35 60 85
VIN Falling
-15
10
35
60
85
Temperature (°C)
Temperature (°C)
Over-Voltage Lockout Threshold (Adjustable Version) vs. Temperature
1.12 1.11 1.10
VOVP_TH
VOVP
1.09 1.08 1.07 1.06 -40
VOVP_HYS
-15
10
35
60
85
Temperature (°C)
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PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Typical Characteristics
EN Input High Voltage vs. Supply Voltage
1.1 1.0 1.1
Over-Voltage Protection Switch
EN Input Low Voltage vs. Supply Voltage
-40°C 25°C
-40°C VEN(L) (V) 25°C 85°C
1.0 0.9 0.8 0.7 0.6
VEN(H) (V)
0.9 0.8 0.7 0.6 3 4 5 6 7 8 9 10 11
85°C
12
13
14
3
4
5
6
7
8
9
10
11
12
13
14
Supply Voltage (V)
Supply Voltage (V)
Turn Off Delay Time
(VIN = 5.0V, RO = 10Ω)
Turn On Delay Time
(VIN = 5.0V, RO = 10Ω)
VOUT (2V/div)
4.84V
VOUT (2V/div)
0V
EN (2V/div)
EN (2V/div)
0V
0V
Time (2ms/div)
Time (2ms/div)
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PRODUCT DATASHEET
AAT4684
OVPSwitchTM
Functional Block Diagram
Over-Voltage Protection Switch
Fixed Option
IN
OUT
OVP
OVP Sense and Control
FLT
EN
GND
Functional Description
The AAT4684 provides up to 28V over-voltage protection when powering low-voltage systems such as cell phones, MP3, and PDAs or when charging Lithium-Ion batteries from a badly regulated supply. The AAT4684 is inserted between the power supply or charger source and the load to be protected. The AAT4684 IC consists of a low resistance P channel MOSFET, under-voltage lockout protection, over-voltage monitor, fast shut-down circuitry and a fault output flag. In normal operation the P channel MOSFET acts as a slew-rate controlled load switch, connecting and disconnecting the power supply from IN to OUT. A low resistance MOSFET is used as to minimize the voltage drop between the voltage source and the load and to reduce the power dissipation. When the voltage on the input
exceeds the over-voltage protection trip voltage (internally set or externally by a voltage divider to the OVP pin), the device immediately turns off the internal P-channel FET, disconnecting the load from the abnormal input and preventing damage to any downstream components. Simultaneously, the fault flag is raised alerting the system to a problem. If an over-voltage condition is applied at the time of the device enable, then the switch will remain OFF.
Under-Voltage Lockout (UVLO)
The AAT4684 has a fixed 3.0V under-voltage lockout level (UVLO). When the input voltage is less than the UVLO level, the MOSFET is turned off. 100mV of hysteresis is included to ensure circuit stability.
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4684.2007.11.1.1
PRODUCT DATASHEET
AAT4684
OVPSwitchTM
Over-Voltage Protection
The AAT4684 adjustable version has a 1.1V ±1.5% overvoltage trip threshold on the OVP pin. With a resistor divider on OVP pin from IN to GND, the over-voltage trip point can be adjusted anywhere within the input voltage range (see Table 1). Once the over-voltage trip level is triggered, the PMOS switch controller will shut off the PMOS in less than 1μs. The AAT4684 fixed version is also available where the resistor divider is internally integrated with the input voltage trip point at 6.5V. The fixed version of AAT4684 does not have a connection to the internal OVP circuitry and the pin #11 is designed to be not connected.
Over-Voltage Protection Switch
Application Information
Over-Voltage Protection
The AAT4684 over-voltage protection circuit provides fast protection against transient voltage spikes and short duration spikes of high voltage from the power supply lines. AAT4684 can quickly disconnect the input supply from the load and not cause any damage to sensitive components In portable product applications, if the user removes the battery pack during charging, this action can create large transients and a high voltage spike can occur which can damage other electronic devices in the product such as the battery charger. A hot plug of the AC/DC wall adapter into the AC outlet can create and release a voltage spike from the transformer. As a result, some sensitive devices within the product can be damaged. With the AAT4684 placed between the power lines and the sensitive devices, the voltage spike can be kept away and the input supply disconnected from other devices in 0.7μs. Figure 2 shows the response time of over-voltage protection from the test circuit (Figure 1). The input voltage is rapidly increased from 5V to 12V by a voltage surge or voltage spike. The voltage at the OVP pin is also increased until the trip point is triggered. At this point, the FLT pin is pulled low and the output voltage starts to fall. Figure 3 shows a zoom-in scope capture of the OVP response time; the output is disconnected from the input in as little as 700ns.
FLT Output
The FLT output is an active-low open-drain fault (OV) reporting output. A pull-up resistor should be connected from FLT to the logic I/O voltage of the host system. FLT will be asserted immediately if an over-voltage fault occurs (only about a 1μs inherited internal circuit delay). A 10ms blanking is applied to FLT signal prior to deassertion.
EN Input
EN is an active-low enable input. EN is driven low, connected to ground, or left floating for normal device operation. Taking the EN high turns off the MOSFET. In the case of an over-voltage or UVLO condition toggling the EN will not override the fault condition and the switch will remain off.
Device Operation
On initial power-up, if VIN < UVLO or if VOVP > VOVP_TH (1.1V), the PMOS is held off. If UVLO < VIN, VOVP < VOVP_TH, and EN is low, the device enters startup after a 10ms internal delay.
Adjustable Version - Over-Voltage Protection Resistors
The over-voltage protection threshold is programmed with two resistors, R1 and R2. To limit the current going through the external resistor string while maintaining good noise immunity, use smaller resistor values, such as 10KΩ for R2. Using a larger value will further reduce the system current, but will also increase the impedance of the OVP node, making it more sensitive to external noise and interference. A suggested value for R2 is 110KΩ. Table 1 summarizes resistor values for various over-voltage settings. Use 1% tolerance metal film resistors for programming the desired OVP setting.
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PRODUCT DATASHEET
AAT4684
OVPSwitchTM
R2 (KΩ)
110 110 110 110 110 110 110 110 110 110
Over-Voltage Protection Switch
R1 (KΩ)
487 536 787 1050 1300 1540 1780 2050 2320 2550
VOVP Setting (V)
6.0 6.5 9.0 11.5 14.0 16.5 19.0 21.5 24.0 26.5
Table 1: Recommended OVP Setting for AAT4684 Adjustable Version1.
SCOPE
+12V
AAT4684
LOAD
10Ω
gnd
Vin
1 2 3 4
8 7 6 5
Vout
+5V
GND OVP Fault
Figure 1: Over-Voltage Protection Response Time Test Circuit.
12V 1.23V 1.03V 0.7µs Output Load = 10Ω No COUT
VIN (5V/div) OVP (50mV/div) VOUT (5V/div) FLT (2V/div)
OVP (200mV/div)
Output Load = 10Ω COUT = 1µF OVP Trip Point (1.1V)
VOUT (100mV/div) FLT (2V/div)
5V
Time (200µs/div)
Time (500ns/div)
Figure 2: Typical Over-Voltage Response Time.
Figure 3: Typical Over-Voltage Response Time [zoom in].
1. Mimimum OVP voltage setting = 5V.
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PRODUCT DATASHEET
AAT4684
OVPSwitchTM
Input Capacitor
A 1μF or larger capacitor is typically recommended for CIN. CIN should be located as close to the device VIN pin as practically possible. Ceramic, tantalum, or aluminum electrolytic capacitors may be selected for CIN. There is no specific capacitor equivalent series resistance (ESR) requirement for CIN. However, for higher current operation, ceramic capacitors are recommended for CIN due to their inherent capability over tantalum capacitors to withstand input current surges from low impedance sources such as batteries in portable devices. Capacitors are typically manufactured in different voltage ratings. 16V, 25V, and 50V are good for OVP applications. If the maximum possible surge voltage is known, select capacitors with a voltage rating at least 5V higher than the maximum possible surge voltage. Otherwise, 50V rated capacitors are generally good for most OVP applications to prevent any surge voltage.
Over-Voltage Protection Switch
will assume the load switch is mounted on a printed circuit board utilizing the minimum recommended footprint as stated in the “Printed Circuit Board Layout Recommendations” section of this datasheet. At any given ambient temperature (TA), the maximum package power dissipation can be determined by the following equation:
PD(MAX) =
TJ(MAX) -TA θJA
Constants for the AAT4684 are maximum junction temperature (TJ(MAX) = 125°C) and package thermal resistance (θJA = 160°C/W). Worst-case conditions are calculated at the maximum operating temperature, TA = 85°C. Typical conditions are calculated under normal ambient conditions where TA = 25°C. At TA = 85°C, PD(MAX) = 250mW. At TA = 25°C, PD(MAX) = 625mW. The maximum continuous output current for the AAT4684 is a function of the package power dissipation and the RDS of the MOSFET at TJ(MAX). The maximum RDS of the MOSFET at TJ(MAX) is calculated by increasing the maximum room temperature. For maximum current, refer to the following equation:
Output Capacitor
In order to insure stability while current limit is active, a small output capacitance of approximately 1μF is required at the output. Likewise, with the output capacitor, there is no specific capacitor ESR requirement. If desired, COUT may be increased to accommodate any load transient condition.
IOUT(MAX) =
FAULT Flag
A FAULT flag is provided to alert the system if the AAT4684’s input voltage has passed the pre-programmed over-voltage trip point. Since the FAULT is open drain pin, it should be pulled up to input/output voltage rail and less than the maximum operating voltage of 6.5V.
PD(MAX) RDS
Printed Circuit Board Layout Recommendations
For proper thermal management and to take advantage of the low RDS(ON) of the AAT4684, certain circuit board layout rules should be followed: VIN and VOUT should be routed using wider than normal traces, and GND should be connected to a ground plane. To maximize package thermal dissipation and power handling capacity of the AAT4684 TSOPJW-12 package, the ground plane area connected to the ground pins should be made as large as possible. For best performance, CIN and COUT should be placed close to the package pins. Refer to Figures 3 and 4.
Thermal Considerations and High Output Current Applications
The AAT4684 is designed to deliver a continuous output load current. The limiting characteristic for maximum safe operating output load current is package power dissipation. In order to obtain high operating currents, careful device layout and circuit operating conditions must be taken into account. The following discussions
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PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Evaluation Board Schematic
+5V
DS1 Red LED U1 TSOPJW-12
Over-Voltage Protection Switch
VIN
R1 C1 1μF R2 110k
8 7 1 2 11 9
IN IN N/C N/C OVP N/C
AAT4684
FLT N/C OUT OUT EN GND
3 12 5 6 4 10
R3 1.5K
VOUT
C2 1μF JP1 Enable
Adjustable version R1 (kΩ) VOVP_SETTING (V) 487 536 787 1050 1300 1780 2320 6.0 6.5 9.0 11.5 14.0 19.0 24.0
Input Cap, C1 C1 1206 X7R 1uF 50V GRM31MR71H105KA88 (C1 1206 X7R 2.2uF 50V GRM31CR71H225KA88L) (C1 1210 X7R 4.7uF 50V GRM32ER71H475KA88L) Output Cap, C2 for under 13V application, C2 0805 X7R 1uF 16V GRM21BR71C105KA01 (for under 20V application, C2 0805 X7R 1uF 25V GRM219R71E105KA88)
For the fixed version, Open R1 and R2.
Figure 3: AAT4684 Evaluation Board Schematic.
Evaluation Board Layout
Figure 4: AAT4684 Evaluation Board Component Side Layout.
Figure 5: AAT4684 Evaluation Board Solder Side Layout.
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4684.2007.11.1.1
PRODUCT DATASHEET
AAT4684 AAT4684
OVPSwitchTM
Ordering Information
Package
TSOPJW-12 TSOPJW-12
Over-Voltage Protection Switch
OVP Trip Voltage
Adjustable 6.5V
Marking
YSXYY
Part Number (Tape and Reel)
AAT4684ITP-T1 AAT4684ITP-6.5-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 Information
TSOPJW-12
0.20 + 0.10 - 0.05
2.40 ± 0.10
0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC
2.85 ± 0.20
7° NOM 3.00 ± 0.10
0.9625 ± 0.0375 + 0.10 1.00 - 0.065
0.04 REF
0.15 ± 0.05
0.055 ± 0.045
4° ± 4°
0.010
0.45 ± 0.15 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.
Advanced Analogic Technologies, Inc. 3230 Scott Boulevard, Santa Clara, CA 95054 Phone (408) 737-4600 Fax (408) 737-4611
© 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.
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