AP2552/ AP2553/ AP2552A/ AP2553A PRECISION ADJUSTABLE CURRENT-LIMITED POWER SWITCHES Description Pin Assignments The AP2552/53 and AP2552A/53A are single channel precision adjustable current-limited switches optimized for applications that require precision current limiting, or to provide up to 2.1A of (Top View) continuous load current during heavy loads/short circuits. These devices offer a programmable current-limit threshold between 75mA and 2.36A (typ) via an external resistor. Current limit accuracy 6% can be achieved at high current-limit settings. The rise and fall times are controlled to minimize current surges during turn on/off. OUT 1 ILIM 2 FAULT 3 The devices have fast short-circuit response time for improved overall PAD 6 5 IN GND 4 EN U-DFN2020-6 system robustness. They provide a complete protection solution for applications subject to heavy capacitive loads and the prospect of short circuit, offering reverse current blocking and limiting, over- Top View current, over-temperature and short-circuit protection, as well as controlled rise time and under-voltage lockout functionality. A IN 1 6 OUT GND 2 5 ILIM EN 3 4 FAULT 7ms deglitch capability on the open-drain Flag output prevents false over-current reporting and does not require any external components. AP2552/53 limits the output current to a safe level when the output current exceeds current-limit threshold. AP2552A/53A provides latch-off function during over-current or SOT26 reverse-voltage conditions. All devices are available in SOT26 and U-DFN2020-6 packages. Features Applications Up to 2.1A Maximum Load Current Accurate Adjustable Current Limit, 75mA - 2360mA Set-Top Boxes LCD TVs & Monitors Residential Gateways Laptops, Desktops, Servers, e-Readers, Printers, Docking Stations, HUBs 6% Accurate Adjustable Current Limit, 1.63A with RLIM = 15k Constant-Current (AP2552/53) During Over-Current Output Latch-Off (AP2552A/53A) at Over-Current Fast Short-Circuit Response Time: 2s (typ) Reverse Current Blocking During Shutdown and Reverse Current Limiting During Enable Operating Range: 2.7V - 5.5V Built-in Soft-Start with 3ms Typical Rise Time Over-Current , Output Over-Voltage and Thermal Protection Fault Report (FAULT) with Blanking Time ESD Protection: 2kV HBM, 500V CDM Active Low (AP2552/52A) or Active High (AP2553/53A) Enable Ambient Temperature Range: -40C to +85C SOT26 and U-DFN2020-6 Package: Available in "Green" Molding Compound (No Br, Sb) Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2) Halogen and Antimony Free. "Green" Device (Note 3) 15kV ESD Protection per IEC 61000-4-2 (with external capacitance) Notes: UL Recognized, File Number E322375, Vol. 1 1IEC60950-1 CB Scheme Certified 1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant. 2. See http://www.diodes.com/quality/lead_free.html for more information about Diodes Incorporated's definitions of Halogen- and Antimony-free, "Green" and Lead-free. 3. Halogen- and Antimony-free "Green" products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and <1000ppm antimony compounds. AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 1 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Typical Applications Circuit 120F Output Capacitance is a Requirement of USB Available Options Part Number Channel Enable Pin (EN) AP2552 AP2553 AP2552A 1 1 1 Active Low Active High Active Low AP2553A 1 Active High Recommended Maximum Continuous Load Current (A) Current-Limit Protection Package 2.1 Constant-Current U-DFN2020-6 SOT26 2.1 Latch-Off U-DFN2020-6 SOT26 Pin Descriptions Pin Name IN Pin Number AP2552W6-7 AP2553W6-7 1 I/O AP2552FDC-7 AP2553FDC-7 6 6 I 1 Function Input, connect a 0.1F or greater ceramic capacitor from IN to GND as close to IC as possible. Ground, connect to external exposed pad. GND 2 2 5 5 -- EN 3 -- 4 -- I Enable input, logic low turns on power switch. EN -- 3 -- 4 I FAULT 4 4 3 3 O ILIM 5 5 2 2 O Enable input, logic high turns on power switch. Active-low open-drain output, asserted during overcurrent, over-temperature, or reverse-voltage conditions. Use external resistor to set current-limit threshold; recommended 10kRLIM232k. OUT 6 6 1 1 O Exposed Pad -- -- Pad Pad -- AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 2 of 17 www.diodes.com Output No internal connection; recommend to connect to GND externally for improved power dissipation. It should not be used as electrical ground conduction path. October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Functional Block Diagram AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 3 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Absolute Maximum Ratings (@TA = +25C, unless otherwise specified.) Symbol HBM CDM ESD IEC system level VIN, VOUT, V FAULT , VILIM, VEN, V EN -- -- ILOAD TJ(MAX) TST Parameter Human Body Model ESD Protection Charged Device Model ESD Protection Surges per EN61000-4-2. 1999 Applied to Output Terminals of EVM Note (5) Voltage on IN, OUT, FAULT , ILIM, EN, EN Continuous FAULT Sink Current ILIM Source Current Maximum Continuous Load Current Ratings 2 500 Unit kV V 15 kV -0.3 to +6.5 V 25 mA 1 mA Internal Limited A Maximum Junction Temperature -40 to +150 C Storage Temperature Range (Note 4) -65 to +150 C Notes: 4. UL Recognized Rating from -30C to +70C (Diodes qualified TST from -65C to +150C). 5. External capacitors need to be connected to the output, EVM board was tested with capacitor 2.2uF 50V 0805. This level is a pass test only and not a limit. Caution: Stresses greater than the 'Absolute Maximum Ratings' specified above, may cause permanent damage to the device. These are stress ratings only; functional operation of the device at these or any other conditions exceeding those indicated in this specification is not implied. Device reliability may be affected by exposure to absolute maximum rating conditions for extended periods of time. Semiconductor devices are ESD sensitive and may be damaged by exposure to ESD events. Suitable ESD precautions should be taken when handling and transporting these devices. Dissipation Rating Table Board Package Thermal Resistance JA Thermal Resistance JC TA +25C Power Rating Derating Factor Above TA = +25C TA = +70C Power Rating TA = +85C Power Rating High-K (Note 6) High-K (Note 6) W6 FDC 160C/W 120C/W 55C/W 34C/W 625mW 833mW 6.25mW/C 8.33mW/C 340mW 450mW 250mW 330mW Note: 6. The JEDEC high-K (2s2p) board used to derive this data was a 3in x 3in, multilayer board with 1oz internal power and ground planes with 2oz copper traces on top and bottom of the board. Recommended Operating Conditions (@TA = +25C, unless otherwise specified.) Symbol Parameter Min Max Unit 2.7 5.5 V Continuous Output Current (-40C TA +85C) 0 2.1 A Enable Voltage 0 5.5 V High-Level Input Voltage on EN or EN 2.0 VIN V Low-Level Input Voltage on EN or EN 0 0.8 V Current-Limit Threshold Resistor Range (1% initial tolerance) 10 210 k VIN Input Voltage IOUT VEN, VEN VIH VIL RLIM IO Continuous FAULT Sink Current 0 10 mA Input De-Coupling Capacitance, IN to GND 0.1 F TA Operating Ambient Temperature -40 +85 C TJ Operating Junction Temperature -40 +125 C AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 4 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Electrical Characteristics (@TA = +25C, VIN = 2.7V to 5.5V, VEN = 0V or VEN = VIN, RFAULT = 10k, unless otherwise specified.) Symbol Supply Parameter Test Conditions (Note 7) Min Typ Max Unit Input UVLO VIN Rising 2.4 2.65 V VUVLO Input UVLO Hysteresis VIN Decreasing 25 mV ISHDN Input Shutdown Current VIN = 5.5V, Disabled, OUT = Open 0.1 1 A IQ Input Quiescent Current VUVLO Reverse Leakage Current IREV VIN = 5.5V, Enabled, OUT = Open, RLIM = 20k 100 140 A VIN = 5.5V, Enabled, OUT = Open, RLIM = 210k 80 120 A Disabled, VIN = 0V, VOUT = 5.5V, IREV at VIN 0.01 1 A TJ = +25C, VIN = 5.0V 70 95 -40C TA +85C 135 TJ = +25C, VIN = 5.0V 80 105 -40C TA +85C 150 VIN = 5.5V, CL = 1F, RLOAD = 100. See Figure 1 1.1 1.5 VIN = 2.7V, CL = 1F, RLOAD = 100. 0.7 1 ms VIN = 5.5V, CL = 1F, RLOAD = 100. See Figure 1 0.1 0.5 ms VIN = 2.7V, CL = 1F, RLOAD = 100. 0.1 0.5 ms 2542 Power Switch SOT26 Package, RDS(ON) Switch On-Resistance U-DFN2020-6 Package Output Turn-On Rise Time tR Output Turn-Off Fall Time tF m ms Current Limit Current-Limit Threshold (maximum DC output current), VOUT = VIN -0.5V ILIMIT RLIM = 10k -40C TA +85C 2200 2365 RLIM = 15k -40C TA +85C 1540 1632 1730 TJ = +25C 1180 1251 1326 -40C TA +85C 1160 1251 1340 TJ = +25C 500 530 562 RLIM = 20k RLIM = 49.9k mA 485 529 573 RLIM = 210k 121 142 162 ILIM Shorted to IN or GND 50 75 100 RLIM = 10k 2620 RLIM = 15k 1820 RLIM = 20k 1380 RLIM = 49.9k 570 RLIM = 210k 150 ILIM Shorted to IN or GND 75 Short-Circuit Response Time VOUT = 0V to IOUT = ILIMIT (OUT shorted to ground) See Figure 2 2 s EN Input Leakage Current VIN = 5V, VEN = 0V and 6V -0.5 0.5 A tON Turn-On Time CL = 1F, RL = 100. See Figure 1 3 ms tOFF Turn-Off Time CL = 1F, RL = 100. See Figure 1 1 ms Discharge Resistance (Note 8) VIN = 5V, Disabled, IOUT =1mA 600 Discharge Resistance During Latch-Off VIN = 5V, Latch-Off, AP2552A/53A Only 1000 ISHORT tSHORT Short-Circuit Current Limit, OUT Connected to GND -40C TA +85C mA Enable Pin ILEAK-EN Output Discharge RDIS RDIS_LATCH Notes: 7. Pulse-testing techniques maintain junction temperature close to ambient temperature; thermal effects must be taken into account separately. 8. The discharge function is active when the device is disabled (when enable is de-asserted or during power-up power-down when VIN< VUVLO). The discharge function offers a resistive discharge path for the external storage capacitor for limited time. AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 5 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Electrical Characteristics (cont.) (@TA = +25C, VIN = 2.7V to 5.5V, VEN = 0V or VEN = VIN, RFAULT = 10k, unless otherwise specified.) Symbol Parameter Test Conditions (Note 6) Min Typ Max Unit Reverse Voltage Protection VRVP Reverse-Voltage Comparator Trip Point VOUT - VIN 95 135 190 mV Reverse Current Limit VOUT - VIN = 200mV 0.72 A Time from Reverse-Voltage Condition to MOSFET Turn Off (AP2552A/AP2553A) VIN = 5V 3 4.75 7 ms VOL FAULT Output Low Voltage IFAULT = 1mA 180 mV IFOH FAULT Off Current VFAULT = 6V 1 A Assertion or deassertion due to overcurrent 5 7.5 10 ms Assertion or deassertion due to reverse-voltage 2 3.75 6 ms Thermal Shutdown Threshold Enabled, RLOAD = 1k 160 C Thermal Shutdown Threshold under Current Limit Enabled, RLOAD = 1k 140 C 20 C IROCP tTRIG Fault Flag FAULT Blanking and Latch Off Time tBlank_OC (Over-Current) FAULT Blanking Time tBlank_RV (Reverse-Voltage) Thermal Shutdown TSHDN TSHDN_OCP THYS Thermal Shutdown Hysteresis Typical Performance Characteristics VEN 50% TD(ON) TD(ON) 90% 10% 10% TD(OFF) TR TF 90% 50% 50% TD(OFF) TR VOUT VEN 50% VOUT TF 90% 10% 90% 10% Figure 1 Voltage Waveforms: AP2552/52A (left), AP2553/53A (right) Figure 2 Response Time to Short Circuit Waveform AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 6 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Typical Performance Characteristics (cont.) VIN= 5V RLIM = 20k ROUT = 5 VIN = 5V RLIM = 20k ROUT = 5 2ms/div Figure 3 Turn-On Delay and Rise Time 2ms/div Figure 4 Turn-Off Delay and Fall Time VIN = 5V RLIM = 20k ROUT = 0 500s/div Figure 5 Device Enabled into Short-circuit 2ms/div Figure 6 No Load to 1 Transient Response 2ms/div Figure 7 Short-Circuit Current Limit Response 20ms/div Figure 8 Extended Short-Circuit into Thermal Cycles AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 7 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Typical Performance Characteristics (cont.) 1ms/div Figure 9 Reverse Current Limit Response(AP2552A/AP2553A) Figure 10 Reverse Current Limit vs. Ambient Temperature Figure 11 Quiescent Current vs. Ambient Temperature Figure 12 Quiescent Current vs. Ambient Temperature Figure 13 Switch On-Resistance vs. Ambient Temperature Figure 14 Under-Voltage Lock Out vs. Ambient Temperature AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 8 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Application Information The AP2552/53 AND AP2552A/53A are integrated high-side power switches optimized for Universal Serial Bus (USB) that require protection functions. The power switches are equipped with a driver that controls the gate voltage and incorporates slew-rate limitation. This, along with the various protection features and special functions, makes these power switches ideal for hot-swap or hot-plug applications. Protection Features: Under-Voltage Lockout (UVLO) Whenever the input voltage falls below UVLO threshold (~2.5V), the power switch is turned off. This facilitates the design of hot-insertion systems where it is not possible to turn off the power switch before input power is removed. Over-Current and Short-Circuit Protection An internal sensing FET is employed to check for over-current conditions. Unlike current-sense resistors, sense FETs do not increase the series resistance of the current path. When an overcurrent condition is detected, AP2552/53 maintains a constant output current and reduces the output voltage accordingly. Complete shutdown occurs only if the fault stays long enough to activate thermal limiting. For AP2552A/53A, when an overcurrent condition is detected, the devices will limit the current until the overload condition is removed or the internal deglitch time (7-ms typical) is reached, and AP2552A/53A will be turned off. AP2552A/53A will remain latched off until power is cycled or the device enable is toggled. The different overload conditions and the corresponding response of the AP2552/53 and AP2552A/53A are outlined below: NO 1 Conditions Short-circuit condition at start-up Explanation Output is shorted before input voltage is applied or before the part is enabled Behavior of the AP2552/53 The IC senses the short circuit and immediately clamps output current to a certain safe level namely ISHORT. At the instance the overload occurs, higher current may flow for a very short period of time before the current limit function can react. After the current limit function has tripped (reached the overcurrent trip threshold), the device switches into current limiting mode and the current is clamped at ISHORT /ILIMIT. The current rises until ILIMIT or thermal limit. Once the threshold has been reached, the device switches into its current limiting mode and is set at ILIMIT. 2 Short-circuit or overcurrent condition Short-Circuit or Overload condition that occurs when the part is enabled. 3 Gradual increase from nominal operating current to ILIMIT Load increases gradually until the current-limit threshold.(ITRIG) NO 1 Conditions Short-circuit condition at start-up Explanation Output is shorted before input voltage is applied or before the part is enabled Behavior of the AP2552A/53A The IC senses the short circuit and immediately clamps output current to a certain safe level namely ISHORT. When the internal deglitch time (7-ms typical) is reached and the devices will be turned off. 2 Short-circuit or overcurrent condition Short-Circuit or Overload condition that occurs when the part is enabled. At the instance the overload occurs, higher current may flow for a very short period of time before the current limit function can react. After the current limit function has tripped (reached the overcurrent trip threshold), the device switches into current limiting mode and the current is clamped at ISHORT /ILIMIT. When the internal deglitch time (7-ms typical) is reached and the devices will be turned off. 3 Gradual increase from nominal operating current to ILIMIT Load increases gradually until the current-limit threshold.(ITRIG) The current rises until ILIMIT or thermal limit. Once the threshold has been reached, the device switches into its current limiting mode and is set at ILIMIT. When the internal deglitch time (7-ms typical) is reached and the devices will be turned off. Over-Current FAULT Signal The FAULT signal will be asserted in response to OCP before the device reaches its current limit. The output current upon FAULT signal triggered will be lower than the I_limit value. To implement FAULT signal for precision system protection control, it is recommended to leave enough margin from maximum continuous operating current for each RLIM value condition. AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 9 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Application Information (cont.) Current-Limit Threshold Programming The current-limit threshold can be programmed using an external resistor. The current-limit threshold is proportional to the current sourced out of ILIM. The recommended 1% resistor range for RLIM is 10k RLIM210k. Figure 15 includes current-limit tolerance due to variations caused by temperature and process. This graph does not include the external resistor tolerance. The traces routing the RLIM resistor to the AP2552/53 and AP2552A/53A should be as short as possible to reduce parasitic effects on the current-limit accuracy. To design below a maximum current-limit threshold, find the intersection of RLIM and the maximum desired load current on the IOS(max) (ILIM) curve and choose a value of RLIM above this value. Programming the current limit below a maximum threshold is important to avoid current limiting upstream power supplies causing the input voltage bus to droop. The resulting minimum current-limit threshold is the intersection of the selected value of RLIM and the IOS(min) (ILIM) curve. Best Fit Current-Limit Threshold Equations (ILIMIT): I LIM ( MAX ) (mA) 20.08 R 0.904 LIM k ILIM( TYP ) (mA ) 19 .94 RLIM 0.925 k ILIM(MIN) (mA ) 20 .26 RLIM 0.956 k Figure 15 Current-Limit Threshold vs. RLIM Thermal Protection Thermal protection prevents the IC from damage when the die temperature exceeds safe margins. This mainly occurs when heavy-overload or short-circuit faults are present for extended periods of time. The AP2552/53 AND AP2552A/53A implements a thermal sensing to monitor the operating junction temperature of the power distribution switch. Once the die temperature rises to approximately +160C (+140C in case the part is under current limit), the thermal protection feature activates as follows: The internal thermal sense circuitry turns the power switch off and the FAULT output is asserted, thus preventing the power switch from damage. Hysteresis in the thermal sense circuit allows the device to cool down by approximately +20C before the output is turned back on. This built-in thermal hysteresis feature is an excellent feature, as it avoids undesirable oscillations of the thermal protection circuit. The switch continues to cycle in this manner until the load fault is removed, resulting in a pulsed output. AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 10 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Application Information (cont.) Reverse-Current and Reverse-Voltage Protection The USB specification does not allow an output device to source current back into the USB port. In a normal MOSFET switch, current will flow in reverse direction (from the output side to the input side) when the output side voltage is higher than the input side. A reverse-current limit (ROCP) feature is implemented in the AP2552/53 AND AP2552A/53A to limit such back currents. The ROCP circuit is activated when the output voltage is higher than the input voltage. After the reverse current circuit has tripped (reached the reverse current trip threshold), the current is clamped at this IROCP level. In addition to ROCP, reverse over-voltage protection (ROVP) is also implemented. The ROVP circuit is activated by the reverse voltage comparator trip point; i.e., the difference between the output voltage and the input voltage. For AP2552/53, once ROVP is activated, FAULT assertion occurs at a de-glitch time of 4ms. Recovery from ROVP is automatic when the fault is removed. FAULT de-assertion de-glitch time is same as the de-assertion time. For AP2552A/53A, once ROVP is activated and when the condition exists for more than 5ms (TYP), output device is disabled and shut down. This is called the "Time from Reverse-Voltage Condition to MOSFET Turn Off". FAULT assertion occurs at a de-glitch time of 4ms after ROVP is reached. Recovery from this fault is achieved by recycling power or toggling EN. FAULT de-assertion de-glitch time is same as the de-assertion time. Special Functions: Discharge Function When enable is de-asserted, or when the input voltage is under UVLO level, the discharge function is active. The output capacitor is discharged through an internal NMOS that has a discharge resistance of 100. Hence, the output voltage drops down to zero. The time taken for discharge is dependent on the RC time constant of the resistance and the output capacitor. FAULT Response The FAULT open-drain output goes active low for any of following faults: Current limit threshold, short- circuit current limit, reverse-voltage condition or thermal shutdown. The time from when a fault condition is encountered to when the FAULT output goes low is 7ms (TYP). The FAULT output remains low until over-current, short-circuit current limit and over-temperature conditions are removed. Connecting a heavy capacitive load to the output of the device can cause a momentary over-current condition, which does not trigger the FAULT due to the 7ms deglitch timeout. This 7-ms timeout is also applicable for over-current recovery and over-temperature recovery. The AP2552/53 and AP2552-2/53A are designed to eliminate erroneous over-current reporting without the need for external components, such as an RC delay network. For the AP2552/53 and AP2552A/53A when the reverse voltage condition is triggered, FAULT output goes low after 4ms (TYP). This 4ms (TYP) timeout is also applicable for the recovery from reverse voltage fault. When the ILIM pin is shorted to IN or GND, current-limit threshold and short-circuit current limit will be clamped at typically 75mA. When the ILIM pin is shorted to IN or GND, the AP2552/53 and AP2552A/53A FAULT pin will not assert during current limiting conditions; The FAULT pin will assert during short circuit conditions. Power Supply Considerations A 0.01-F to 0.1-F X7R or X5R ceramic bypass capacitor between IN and GND, close to the device, is recommended. This limits the input voltage drop during line transients. Placing a high-value electrolytic capacitor on the input (10F minimum) and output pin (120F) is recommended when the output load is heavy. This precaution also reduces power-supply transients that may cause ringing on the input. Additionally, bypassing the device output with a 0.1F to 4.7F ceramic capacitor improves the immunity of the device to short-circuit transients. This capacitor also prevents output from going negative during turn-off due to parasitic inductance. Power Dissipation and Junction Temperature The low on-resistance of the internal MOSFET allows the small surface-mount packages to pass large current. Using the maximum operating ambient temperature (TA) and RDS(ON), the power dissipation can be calculated by: 2 PD = RDS(ON)x I Finally, calculate the junction temperature: TJ = PD x JA + TA Where: TA = Ambient temperature C JA = Thermal resistance PD = Total power dissipation AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 11 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Application Information (cont.) Generic Hot-Plug Applications In many applications it may be necessary to remove modules or PC boards while the main unit is still operating. These are considered hot-plug applications. Such implementations require the control of current surges seen by the main power supply and the card being inserted. The most effective way to control these surges is to limit and slowly ramp the current and voltage being applied to the card, similar to the way in which a power supply normally turns on. Due to the controlled rise and fall times of the AP2552/53 AND AP2552A/53A, these devices can be used to provide a softer start-up to devices being hot-plugged into a powered system. The UVLO feature of the AP2552/53 AND AP2552A/53A also ensures that the switch is off after the card has been removed, and that the switch is off during the next insertion. Generic Hot-Plug Applications By placing the AP2552/53 AND AP2552A/53A between the VCC input and the rest of the circuitry, the input power reaches these devices first after insertion. The typical rise time of the switch is approximately 1ms, providing a slow voltage ramp at the output of the device. This implementation controls system surge current and provides a hot-plugging mechanism for any device. Ordering Information Part Number AP2552W6-7 AP2552W6-7R AP2552FDC-7 AP2552FDC-7R AP2553W6-7 AP2553W6-7R AP2553FDC-7 AP2553FDC-7R AP2552AW6-7 AP2552AW6-7R AP2552AFDC-7 AP2552AFDC-7R AP2553AW6-7 AP2553AW6-7R AP2553AFDC-7 Enable Active Output Fault Condition Low Output Current Limits High Low Output Latches Off High AP2553AFDC-7R AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 7" Tape and Reel Quantity Part Number Suffix 3000/Tape & Reel -7 3000/Tape & Reel -7R Package Code Packaging W6 W6 SOT26 SOT26 FDC FDC W6 W6 FDC FDC W6 U-DFN2020-6 U-DFN2020-6 SOT26 SOT26 U-DFN2020-6 U-DFN2020-6 SOT26 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel -7 -7R -7 -7R -7 -7R -7 W6 FDC FDC W6 W6 FDC SOT26 U-DFN2020-6 U-DFN2020-6 SOT26 SOT26 U-DFN2020-6 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel 3000/Tape & Reel -7R -7 -7R -7 -7R -7 FDC U-DFN2020-6 3000/Tape & Reel -7R 12 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Marking Information (1) SOT26 ( Top View ) 5 4 7 6 XX Y W X 1 (2) 2 3 XX : Identification Code Y : Year 0~9 W : Week : A~Z : 1~26 week; a~z : 27~52 week; z represents 52 and 53 week X : Internal Code Device Package Identification Code AP2552W6-7 AP2552W6-7R AP2553W6-7 AP2553W6-7R AP2552AW6-7 AP2552AW6-7R SOT26 SOT26 SOT26 SOT26 SOT26 SOT26 BJ BJ BK BK BM BM AP2553AW6-7 AP2553AW6-7R SOT26 SOT26 BN BN U-DFN2020-6 ( Top View ) XX YWX XX : Identification Code Y : Year : 0~9 W : Week : A~Z : 1~26 week; a~z : 27~52 week; z represents 52 and 53 week X : Internal Code Device AP2552FDC-7 AP2552FDC-7R AP2553FDC-7 AP2553FDC-7R AP2552AFDC-7 Package U-DFN2020-6 U-DFN2020-6 U-DFN2020-6 U-DFN2020-6 U-DFN2020-6 Identification Code BJ BJ BK BK BM AP2552AFDC-7R AP2553AFDC-7 AP2553AFDC-7R U-DFN2020-6 U-DFN2020-6 U-DFN2020-6 BM BN BN AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 13 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Package Outline Dimensions (All dimensions in mm.) Please see AP02002 at http://www.diodes.com/datasheets/ap02002.pdf for the latest version. (1) Package Type: SOT26 A B C H K M J (2) L D SOT26 Dim Min Max Typ A 0.35 0.50 0.38 B 1.50 1.70 1.60 C 2.70 3.00 2.80 D 0.95 H 2.90 3.10 3.00 J 0.013 0.10 0.05 K 1.00 1.30 1.10 L 0.35 0.55 0.40 M 0.10 0.20 0.15 0 8 All Dimensions in mm Package Type: U-DFN2020-6 A A3 A1 Seating Plane D D2 Pin #1 ID E E2 Z (4x) L e b AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 U-DFN2020-6 Type C Dim Min Max Typ A 0.57 0.63 0.60 A1 0.00 0.05 0.02 A3 -- -- 0.15 b 0.25 0.35 0.30 D 1.95 2.075 2.00 D2 1.55 1.75 1.65 E 1.95 2.075 2.00 E2 0.86 1.06 0.96 e -- -- 0.65 L 0.25 0.35 0.30 Z -- -- 0.20 All Dimensions in mm 14 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Suggested Pad Layout Please see AP02001 at http://www.diodes.com/datasheets/ap02001.pdf for the latest version. (1) Package Type: SOT26 C2 C2 Z C1 G Y Dimensions Value (in mm) Z 3.20 G 1.60 X 0.55 Y 0.80 C1 2.40 C2 0.95 X (2) Package Type: U-DFN2020-6 X2 X1 Y Y2 Dimensions C X X1 X2 Y Y1 Y2 Y1 X C AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 Value (in mm) 0.650 0.350 1.650 1.700 0.525 1.010 2.400 15 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A Taping Orientation (Note 11) (1) Package Type: SOT26 (2) Package Type (-7) : U-DFN2020-6 (3) Package Type (-7R) : U-DFN2020-6 Note: 11. The taping orientation of the other package type can be found on our website at http://www.diodes.com/datasheets/ap02007.pdf. AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 16 of 17 www.diodes.com October 2014 (c) Diodes Incorporated AP2552/ AP2553/ AP2552A/ AP2553A IMPORTANT NOTICE DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION). Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated website, harmless against all damages. Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales channel. Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized application. Products described herein may be covered by one or more United States, international or foreign patents pending. Product names and markings noted herein may also be covered by one or more United States, international or foreign trademarks. This document is written in English but may be translated into multiple languages for reference. Only the English version of this document is the final and determinative format released by Diodes Incorporated. LIFE SUPPORT Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Diodes Incorporated. As used herein: A. Life support devices or systems are devices or systems which: 1. are intended to implant into the body, or 2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in significant injury to the user. B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or to affect its safety or effectiveness. Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems. Copyright (c) 2014, Diodes Incorporated www.diodes.com AP2552/AP2553/AP2552A/AP2553A Document number: DS35404 Rev. 10 - 2 17 of 17 www.diodes.com October 2014 (c) Diodes Incorporated