TCK305G,LF

TCK305G TOSHIBA CMOS Linear Integrated Circuit Silicon Monolithic TCK305G 28 V, Single input – Single Output Load Switch IC with Over Voltage Protection The TCK30 series are 28 V high input voltage Single Inputs-Single Output load switch ICs. It has Over Voltage Protection function featuring low switch ON resistance, high output current and wide input voltage operation. Switch ON resistance is only 73 mΩ at 4.5 V, - 1.0 A load conditions. And these feature a slew rate control driver, thermal shutdown and Flag function. Also it can block reverse current if switch turned off. Output current is available up to 3 A. Thus this is suitable for power management such as Battery Charge application. This device is available in 0.5mm pitch ultra small package WCSP9 (1.5 mm x 1.5 mm, t: 0.5 mm (Typ.)).Thus this devices is ideal for portable applications that require high-density board assembly such as cellular phone. WCSP9 Weight : 3.5 mg ( Typ.) Feature • High input voltage: VIN (Max) = 28 V • High output current: IOUT (DC) = 3.0 A • Low ON resistance : RON = 73 mΩ (Typ.) at VIN = 4.5 V, IOUT = - 1.0 A • Over Voltage Lockout : 10.5 V (Typ.) • Under Voltage Lockout: 2.9 V (Typ.) • FLAG indicates • Internal 15 ms startup hold • Reverse current blocking (SW OFF state) • Inrush current reducing circuit • Thermal Shutdown function • Small package: 0.5 mm pitch WCSP9 ( 1.5 mm x 1.5 mm, t: 0.5 mm(Typ.)) , PD = 1.65 W Top marking A1 Index 305: TCK305G Start of commercial production 2015-09 1 2015-11-11 TCK305G Absolute Maximum Ratings (Ta = 25°C) Characteristics Symbol Rating Unit VIN -0.3 to 30 V Control voltage VCT, VCE -0.3 to 6 V Output voltage VOUT -0.3 to 18 V Flag voltage VFLAG -0.3 to 6 V Input voltage Output current IOUT DC 3.0 Pulse 4.0 (Note 1) 1.65 (Note 2) A Power dissipation PD Operating temperature range Topr −40 to 85 °C Junction temperature Tj 150 °C Storage temperature Tstg −55 to 150 °C W Note: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings. Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook (“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability test report and estimated failure rate, etc). Note1: 1 ms pulse, 1% duty cycle Note2: Rating at mounting on a board: FR4 board. ( 40 mm × 40 mm × 1.6 mm, Cu 4 layer ) Pin Assignment (Top view/Bottom bump) 1 2 3 1 2 3 A FLAG VCT CE B VIN GND VOUT C VIN GND VOUT A B C Product list Part number Over voltage lockout CE function VCT function VCT resistance TCK305G 10.5 V (Typ.) Active Low Active Low Pull down Please ask your local retailer about the devices with other OVLO, logic function and pull down resistance. 2 2015-11-11 TCK305G Block Diagram Reverse Current Blocking VIN VOUT Q1 OVLO/ UVLO VIN Inrush Current Reducing Charge Pump VOUT FLAG Control Logic Thermal Shutdown CE Q2 Open Drain VCT GND GND PIN Description PIN A1 Name FLAG A2 VCT A3 B1, C1 CE VIN B2, C2 B3, C3 GND VOUT Description Open drain acknowledge signal output. When input voltage is in regular range (VUVL < VIN < VOVL), Q2 turn ON. FLAG output turn to be high impedance in irregular input voltage range, CE High state and thermal shutdown operation. Switch Control function. It is internally connected to GND (Pull down). Chip Enable function. It is internally connected to GND(Pull down) Input. It has Over Voltage Lock Out (OVLO) and Under Voltage Lock Out function (UVLO). Ground Output. Operation Logic Table TCK305G Q1 (Main Switch) VCT “HIGH” Q2 (FLAG out) Reverse current block Q1 (Main Switch) VCT “LOW” Q2 (FLAG out) Reverse current block CE “Low” OFF ON (When VUVL < VIN < VOVL), OFF (When VUVL > VIN, or VIN > VOVL), OFF (Thermal shut down = active) Active ON ON (When VUVL < VIN < VOVL), OFF (When VUVL > VIN, or VIN > VOVL), OFF (Thermal shut down = active) Disable 3 CE “ High” OFF OFF Active OFF OFF Active 2015-11-11 TCK305G DC Characteristics (Ta = -40 to 85°C) Ta = −40 to 85°C Ta = 25°C Characteristics Symbol Test Condition Unit Min Typ. Max Min Max Input voltage VIN ― 2.3 ― 28 2.3 28 V CE,VCT High-level input voltage VIH VIN = 2.3 to 28 V 1.6 ― ― 1.6 ― V CE,VCT Low-level input voltage VIL VIN = 2.3 to 28 V ― ― 0.3 ― 0.3 V Over voltage lock out (OVLO) rising threshold VOVL_RI ― ― 10.5 ― 9.1 11.9 V Over voltage lock out (OVLO) falling threshold VOVL_FA ― ― VOVL_RI - 0.5 ― ― ― V Under voltage lock out (UVLO) rising threshold VUVL_RI ― ― 2.9 ― 2.3 3.5 V Under voltage lock out (UVLO) falling threshold VUVL_FA ― ― VUVL_RI - 0.3 ― ― ― V Quiescent current (ON state) IQ(ON) CE = Open, VCT = Open IOUT = 0 mA, VIN = 5.0 V ― 130 ― ― 190 μA Quiescent current (OFF state) IQ(OFF1) CE = 0 V, VCT = 3.0 V, VIN = 5.0 V, VOUT = 0 V ― 75 ― ― 115 μA Input Shutdown Current IQ(OFF2) CE = 3.0 V, VCT = Open, VIN = 5.0 V, VOUT = 0 V ― 1.3 ― ― 10 μA Switch OFF state current IOFF CE = 3.0 V, VCT = Open, VIN = Open, VOUT = 5.0 V ― 0.1 ― ― 1 μA Reverse blocking current IRB VOUT = 5.0 V, VIN = 0 V, VCT = 3.0 V ― 0.1 ― ― 10 μA On resistance RON IOUT = -1.0 A, VIN = 4.5 V ― 73 ― ― 140 mΩ FLAG Leak current ILEAK VIO = 5.0 V ― ― 2 ― 2 μA V FLAG Output low voltage VOL ISINK = 1 mA, VIO = 5.0 V ― ― 0.4 ― 0.4 CE built-in resistance RCE ― ― 530 ― ― ― VCT built-in resistance RVCT ― ― 530 ― ― ― Min Typ. Max Unit ― 15 ― ms ― 3 ― μs ― 2 ― μs kΩ AC Characteristics (Ta = 25°C) Characteristics Hold time Symbol tHD Test Condition (Figure 1, 2) VUVL < VIN(5 V) < VOVL, RL = 50 Ω Initial start up VOUT off state to charge-pump on state VIN >VOVLO_RI , VIN rising = 2 V/μs, VOUT OVP off time tOVP VOUT off time tOFF VOUT rise time tr VIN= 5.0 V , RL = 50 Ω , CL=1.0 uF ― 2 ― ms tf RL = 50 Ω, VOUT to 80% of VOVLO_RI VUVL < VIN (5 V) < VOVL, RL = 50 Ω, VOUT to 80% of VIN VIN= 5.0 V , RL = 50 Ω , CL=1.0 uF ― 0.12 ― ms VCT delay time (Enable to Disable) tCT1 VIN= 5.0 V , RL = 50 Ω ― 0.5 ― μs VCT delay time (Disable to Enable) tCT2 VIN= 5.0 V , RL = 50 Ω ― 3.2 ― ms VOUT fall time 4 2015-11-11 TCK305G Timing chart VIN OVLO UVLO Thermal shutdown detect tOVP Thermal shutdown release tOFF VOUT High VCT Low High CE Low FLAG High tHD Low tHD tHD tHD Figure 1: tHD, tOVP, tOFF tf tr VOUT 90% 90% 10% tCT1 10% tCT2 High VCT Low 50% 50% Figure 2: tr, tf, tCT 5 2015-11-11 TCK305G Application Note 1. Application circuit example (top view) RUP FLAG VOUT VIN LOAD TCK305G CE CIN 1.0 μF VCT COUT GND 1.0 μF CL RL 1) Input and Output capacitor An input capacitor (CIN) and an output capacitor (COUT) are necessary for the stable operation of TCK305G. And it is effective to reduce voltage overshoot or undershoot due to sharp changes in output current and also for improved stability of the power supply. When used, place CIN and COUT more than 1.0μF as close to VIN pin to improve stability of the power supply. 2) Control pin Control pins for TCK305G is operated by the control voltage and Schmitt trigger. It can be used even if the control voltage is higher than the input voltage. 2. Reverse current blocking Reverse current blocking (SW OFF state) function is designed in these products. This function is active at output n-ch MOSEFT turned off. However these does not assure for the suppression of uprising device operation. In use of these products, please read through and understand dissipation idea for absolute maximum ratings from the above mention or our ‘Semiconductor Reliability Handbook’. Then use these products under absolute maximum ratings in any condition. Furthermore, Toshiba recommend inserting failsafe system into the design. 3. Thermal shut down function Thermal shutdown function is designed in these products, but these does not assure for the suppression of uprising device operation. In use of these products, please read through and understand dissipation idea for absolute maximum ratings from the above mention or our ‘Semiconductor Reliability Handbook’. Then use these products under absolute maximum ratings in any condition. Furthermore, Toshiba recommend inserting failsafe system into the design. 6 2015-11-11 TCK305G 4. Power Dissipation Board-mounted power dissipation ratings for TCK305G are available in the Absolute Maximum Ratings table. Power dissipation is measured on the board condition shown below. [The Board Condition] Board material: Glass epoxy (FR4) Board dimension: 40 mm x 40 mm (Cu 4 layer) PD – Ta (WCSP9) Power dissipation PD (mW) 2000 1500 1000 500 0 −40 0 40 80 120 Ambient temperature Ta (°C) Please allow sufficient margin when designing a board pattern to fit the expected power dissipation. Also take into consideration the ambient temperature, input voltage, output current etc and applying the appropriate derating for allowable power dissipation during operation. 7 2015-11-11 TCK305G Representative Typical Characteristics 1) ON resistance RON - VIN RON - IOUT (mΩ) 100 IOUT = -1.0 A Ta = 25°C 90 RON Pulse test 80 ON resistance ON resistance RON (mΩ) 100 70 60 50 0 3 6 Input voltage 9 12 VIN VIN = 4.5 V Ta = 25°C 90 80 70 60 50 0 15 Pulse test (V) 1.0 2.0 Output current 4.0 3.0 IOUT (A) 2) Quiescent current IQ(ON) - Ta 200 Ta = 25°C 200 150 100 50 0 0 (μA) IOUT = 0 mA 250 Quiescent current IQ(ON) Quiescent current IQ(ON) (μA) IQ(ON) - VIN 250 10 Input voltage 20 VIN IOUT = 0 mA 150 100 50 0 -50 30 150 85°C 100 -40°C 50 10 Input voltage 20 VIN 30 (μA) VCT = 3.0 V 25 Quiescent current IQ(OFF2) (μA) Quiescent current IQ(OFF1) CE, VOUT = 0 V 0 0 50 100 Ta (°C) IQ(OFF2) - VIN IQ(OFF1) - VIN Ta = 25°C 0 Ambient temperature (V) 250 200 VIN = 5.0 V 20 CE = 3.0 V VOUT = 0 V 15 85°C 10 Ta = 25°C -40°C 5 0 0 10 Input voltage (V) 8 20 VIN 30 (V) 2015-11-11 TCK305G Package Dimensions WCSP9 Unit: mm Weight : 3.5 mg ( Typ.) 9 2015-11-11 TCK305G Land pattern dimensions (for reference only) Unit: mm 10 2015-11-11 TCK305G RESTRICTIONS ON PRODUCT USE • Toshiba Corporation, and its subsidiaries and affiliates (collectively "TOSHIBA"), reserve the right to make changes to the information in this document, and related hardware, software and systems (collectively "Product") without notice. • This document and any information herein may not be reproduced without prior written permission from TOSHIBA. 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