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S-1312A13-A4T2U3

S-1312A13-A4T2U3

  • 厂商:

    ABLIC(艾普凌科)

  • 封装:

    HSNT-4B

  • 描述:

    IC REG LINEAR 1.3V 150MA HSNT4-B

  • 数据手册
  • 价格&库存
S-1312A13-A4T2U3 数据手册
S-1312 Series www.ablic.com 5.5 V INPUT, 150 mA VOLTAGE REGULATOR Rev.2.6_00 © ABLIC Inc., 2011-2023 The S-1312 Series, developed by using the CMOS technology, is a positive voltage regulator IC which has low current consumption, high ripple-rejection and low dropout voltage. Even with low current consumption of 20 μA typ., it has high ripple-rejection of 75 dB typ., and a ceramic capacitor of 0.22 μF or more can be used as the input and output capacitors. It also has high-accuracy output voltage of ±1.0%.  Features • Output voltage: • Input voltage: • Output voltage accuracy: • Dropout voltage: • Current consumption: • Output current: • Input and output capacitors: • Ripple rejection: • Built-in overcurrent protection circuit: • Built-in thermal shutdown circuit: • Built-in ON / OFF circuit: • Operation temperature range: • Lead-free (Sn 100%), halogen-free 1.0 V to 3.5 V, selectable in 0.05 V step 1.5 V to 5.5 V ±1.0% (1.0 V to 1.45 V output product: ±15 mV) 160 mV typ. (2.8 V output product, IOUT = 100 mA) During operation: 20 μA typ., 30 μA max. During power-off: 0.1 μA typ., 1.0 μA max. Possible to output 150 mA (VIN ≥ VOUT(S) + 1.0 V)*1 A ceramic capacitor of 0.22 μF or more can be used. 75 dB typ. (1.2 V output product, f = 1.0 kHz) 70 dB typ. (2.85 V output product, f = 1.0 kHz) Limits overcurrent of output transistor. Prevents damage caused by heat. Ensures long battery life. Discharge shunt function "available" / "unavailable" is selectable. Pull-down function "available" / "unavailable" is selectable. Ta = −40°C to +85°C *1. Attention should be paid to the power dissipation of the package when the output current is large.  Applications • Constant-voltage power supply for portable communication device, digital camera, and digital audio player • Constant-voltage power supply for battery-powered device • Constant-voltage power supply for home electric appliance  Packages • SOT-23-5 • HSNT-4 (1010) • HSNT-4 (0808) 1 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Block Diagrams 1. S-1312 Series A type *1 VIN VOUT Overcurrent protection circuit Function ON / OFF logic Discharge shunt function Pull-down resistor Status Active "H" Available Available Thermal shutdown circuit ON / OFF ON / OFF circuit + − Reference voltage circuit *1 VSS *1. Parasitic diode Figure 1 2. S-1312 Series B type *1 VIN VOUT Overcurrent protection circuit Thermal shutdown circuit ON / OFF ON / OFF circuit + − Reference voltage circuit *1 VSS *1. Parasitic diode Figure 2 2 Function ON / OFF logic Discharge shunt function Pull-down resistor Status Active "H" Available Unavailable 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 3. S-1312 Series C type *1 VIN VOUT Overcurrent protection circuit Function ON / OFF logic Discharge shunt function Pull-down resistor Status Active "H" Unavailable Available Thermal shutdown circuit ON / OFF ON / OFF circuit + − Reference voltage circuit VSS *1. Parasitic diode Figure 3 4. S-1312 Series D type *1 VIN VOUT Overcurrent protection circuit Function ON / OFF logic Discharge shunt function Pull-down resistor Status Active "H" Unavailable Unavailable Thermal shutdown circuit ON / OFF ON / OFF circuit + − Reference voltage circuit VSS *1. Parasitic diode Figure 4 3 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Product Name Structure Users can select the product type, output voltage, and package type for the S-1312 Series. Refer to "1. Product name" regarding the contents of product name, "2. Function list of product types" regarding the product type, "3. Packages" regarding the package drawings, "4. Product name lists" regarding details of the product name. 1. Product name S-1312 x xx - xxxx U 3 Environmental code U: Lead-free (Sn 100%), halogen-free Package abbreviation and IC packing specifications M5T1: SOT-23-5, Tape A4T2: HSNT-4 (1010), Tape A4T1: HSNT-4 (0808), Tape *1 Output voltage*2 10 to 35 (e.g., when the output voltage is 1.0 V, it is expressed as 10.) Product type*3 A to D *1. *2. *3. Refer to the tape drawing. If you request the product which has 0.05 V step, contact our sales representatives. Refer to "2. Function list of product types". 2. Function list of product types Product Type A B C D ON / OFF Logic Active "H" Active "H" Active "H" Active "H" Table 1 Discharge Shunt Function Available Available Unavailable Unavailable Pull-down Resistor Available Unavailable Available Unavailable 3. Packages Package Name SOT-23-5 HSNT-4 (1010) HSNT-4 (0808) 4 Table 2 Package Drawing Codes Dimension Tape MP005-A-P-SD PL004-A-P-SD PK004-A-P-SD MP005-A-C-SD PL004-A-C-SD PK004-A-C-SD Reel MP005-A-R-SD PL004-A-R-SD PK004-A-R-SD Land − PL004-A-L-SD PK004-A-L-SD 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 4. Product name lists 4. 1 S-1312 Series A type ON / OFF logic: Discharge shunt function: Output Voltage 1.2 V ± 15 mV 1.8 V ± 1.0% 2.5 V ± 1.0% 3.3 V ± 1.0% Active "H" Available Pull-down resistor: Table 3 SOT-23-5 HSNT-4 (1010) S-1312A12-M5T1U3 S-1312A12-A4T2U3 S-1312A18-M5T1U3 S-1312A18-A4T2U3 S-1312A25-M5T1U3 S-1312A25-A4T2U3 S-1312A33-M5T1U3 S-1312A33-A4T2U3 Available HSNT-4 (0808) S-1312A12-A4T1U3 S-1312A18-A4T1U3 S-1312A25-A4T1U3 S-1312A33-A4T1U3 Remark Please contact our sales representatives for products other than the above. 4. 2 S-1312 Series B type ON / OFF logic: Discharge shunt function: Output Voltage 1.2 V ± 15 mV 1.8 V ± 1.0% 2.5 V ± 1.0% 3.3 V ± 1.0% Active "H" Available Pull-down resistor: Table 4 SOT-23-5 HSNT-4 (1010) S-1312B12-M5T1U3 S-1312B12-A4T2U3 S-1312B18-M5T1U3 S-1312B18-A4T2U3 S-1312B25-M5T1U3 S-1312B25-A4T2U3 S-1312B33-M5T1U3 S-1312B33-A4T2U3 Unavailable HSNT-4 (0808) S-1312B12-A4T1U3 S-1312B18-A4T1U3 S-1312B25-A4T1U3 S-1312B33-A4T1U3 Remark Please contact our sales representatives for products other than the above. 4. 3 S-1312 Series C type ON / OFF logic: Discharge shunt function: Output Voltage 1.2 V ± 15 mV 1.8 V ± 1.0% 2.5 V ± 1.0% 3.3 V ± 1.0% Active "H" Unavailable Pull-down resistor: Table 5 SOT-23-5 HSNT-4 (1010) S-1312C12-M5T1U3 S-1312C12-A4T2U3 S-1312C18-M5T1U3 S-1312C18-A4T2U3 S-1312C25-M5T1U3 S-1312C25-A4T2U3 S-1312C33-M5T1U3 S-1312C33-A4T2U3 Available HSNT-4 (0808) S-1312C12-A4T1U3 S-1312C18-A4T1U3 S-1312C25-A4T1U3 S-1312C33-A4T1U3 Remark Please contact our sales representatives for products other than the above. 4. 4 S-1312 Series D type ON / OFF logic: Discharge shunt function: Output Voltage 1.2 V ± 15 mV 1.8 V ± 1.0% 2.5 V ± 1.0% 3.3 V ± 1.0% Active "H" Unavailable Pull-down resistor: Table 6 SOT-23-5 HSNT-4 (1010) S-1312D12-M5T1U3 S-1312D12-A4T2U3 S-1312D18-M5T1U3 S-1312D18-A4T2U3 S-1312D25-M5T1U3 S-1312D25-A4T2U3 S-1312D33-M5T1U3 S-1312D33-A4T2U3 Unavailable HSNT-4 (0808) S-1312D12-A4T1U3 S-1312D18-A4T1U3 S-1312D25-A4T1U3 S-1312D33-A4T1U3 Remark Please contact our sales representatives for products other than the above. 5 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Pin Configurations 1. SOT-23-5 Table 7 Top view 5 4 1 2 3 Pin No. 1 2 3 4 5 Symbol VIN VSS ON / OFF NC*1 VOUT Description Input voltage pin GND pin ON / OFF pin No connection Output voltage pin Figure 5 *1. The NC pin is electrically open. The NC pin can be connected to the VIN pin or the VSS pin. 2. HSNT-4 (1010) Table 8 Top view 1 2 4 3 Bottom view 4 3 Pin No. 1 2 3 4 Symbol VOUT VSS ON / OFF VIN Description Output voltage pin GND pin ON / OFF pin Input voltage pin 1 2 *1 Figure 6 *1. Connect the heat sink of backside at shadowed area to the board, and set electric potential GND. However, do not use it as the function of electrode. 3. HSNT-4 (0808) Table 9 Top view 1 2 4 3 Bottom view 4 3 Pin No. 1 2 3 4 Symbol VOUT VSS ON / OFF VIN Description Output voltage pin GND pin ON / OFF pin Input voltage pin 1 2 *1 Figure 7 *1. Connect the heat sink of backside at shadowed area to the board, and set electric potential GND. However, do not use it as the function of electrode. 6 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Absolute Maximum Ratings Table 10 (Ta = +25°C unless otherwise specified) Item Symbol VIN VON / OFF VOUT IOUT Input voltage Output voltage Output current SOT-23-5 HSNT-4 (1010) PD HSNT-4 (0808) Operation ambient temperature Topr Storage temperature Tstg *1. When mounted on board [Mounted board] (1) Board size: 114.3 mm × 76.2 mm × t1.6 mm (2) Name: JEDEC STANDARD51-7 Power dissipation Unit V V V mA mW mW mW °C °C The absolute maximum ratings are rated values exceeding which the product could suffer physical damage. These values must therefore not be exceeded under any conditions. 1200 Power Dissipation (PD) [mW] Caution Absolute Maximum Rating VSS − 0.3 to VSS + 6.0 VSS − 0.3 to VSS + 6.0 VSS − 0.3 to VIN + 0.3 180 600*1 340*1 335*1 −40 to +85 −40 to +125 1000 HSNT-4 (1010) 800 HSNT-4 (0808) 400 200 0 Figure 8 SOT-23-5 600 0 150 100 50 Ambient Temperature (Ta) [°C] Power Dissipation of Package (When Mounted on Board) 7 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 Power Dissipation of HSNT-4 (1010) and HSNT-4 (0808) (Reference) Power dissipation of package differs depending on the mounting conditions. Consider the power dissipation characteristics under the following conditions as reference. [Mounted board] (1) Board size: 40 mm × 40 mm × t0.8 mm (2) Board material: Glass epoxy resin (four layers) (3) Wiring ratio: 50% (4) Test conditions: When mounted on board (wind speed: 0 m/s) (5) Land pattern: Refer to the recommended land pattern Drawing code: PL004-A-L-SD (HSNT-4 (1010)), PK004-A-L-SD (HSNT-4 (0808)) Power Dissipation (PD) [mW] 1200 HSNT-4 (1010) 1000 800 600 400 200 0 Figure 9 Condition HSNT-4 (1010) (When mounted on board) HSNT-4 (0808) (When mounted on board) 8 HSNT-4 (0808) 0 150 100 50 Ambient Temperature (Ta) [°C] Power Dissipation of Package (When Mounted on Board) Table 11 Power Dissipation (Reference) Thermal Resistance Value (θj−a) 870 mW 115°C/W 850 mW 117°C/W 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Electrical Characteristics Table 12 Item Output voltage*1 Output current*2 Dropout voltage*3 Line regulation Load regulation Output voltage temperature coefficient*4 Symbol VOUT(E) IOUT Vdrop ΔVOUT1 ΔVIN • VOUT ΔVOUT2 Condition VIN = VOUT(S) + 1.0 V, IOUT = 30 mA 1.0 V ≤ VOUT(S) < 1.5 V 1.5 V ≤ VOUT(S) ≤ 3.5 V VIN ≥ VOUT(S) + 1.0 V IOUT = 100 mA 1.0 V ≤ VOUT(S) < 1.1 V 1.1 V ≤ VOUT(S) < 1.2 V 1.2 V ≤ VOUT(S) < 1.3 V 1.3 V ≤ VOUT(S) < 1.4 V 1.4 V ≤ VOUT(S) < 1.5 V 1.5 V ≤ VOUT(S) < 1.7 V 1.7 V ≤ VOUT(S) < 2.0 V 2.0 V ≤ VOUT(S) < 2.5 V 2.5 V ≤ VOUT(S) < 3.0 V 3.0 V ≤ VOUT(S) < 3.3 V 3.3 V ≤ VOUT(S) ≤ 3.5 V 1.0 V ≤ VOUT(S) < 1.1 V 1.6 V ≤ VIN ≤ 5.5V, IOUT = 30 mA 1.1 V ≤ VOUT(S) ≤ 3.5 V VOUT(S) + 0.5 V ≤ VIN ≤ 5.5 V, IOUT = 30 mA VIN = VOUT(S) + 1.0 V, 100 μA ≤ IOUT ≤ 100 mA (Ta = +25°C unless otherwise specified) Test Min. Typ. Max. Unit Circuit VOUT(S) VOUT(S) VOUT(S) V 1 − 0.015 + 0.015 VOUT(S) VOUT(S) VOUT(S) V 1 × 0.99 × 1.01 *5 − − 150 mA 3 0.50 0.68 0.86 V 1 − 0.52 0.71 V 1 − 0.31 0.63 V 1 − 0.28 0.56 V 1 − 0.26 0.50 V 1 − 0.24 0.47 V 1 − 0.22 0.43 V 1 − 0.18 0.36 V 1 − 0.16 0.32 V 1 − 0.15 0.28 V 1 − 0.14 0.27 V 1 − 0.02 0.1 %/V 1 − 0.02 0.1 %/V 1 − 20 40 mV 1 ΔTa • VOUT VIN = VOUT(S) + 1.0 V, IOUT = 30 mA, −40°C ≤ Ta ≤ + 85°C − ±130 − ppm/°C 1 ISS1 VIN = VOUT(S) + 1.0 V, ON / OFF pin = ON, no load − 20 30 μA 2 ΔVOUT Current consumption during operation Current consumption during power-off Input voltage ISS2 VIN = VOUT(S) + 1.0 V, ON / OFF pin = OFF, no load − 0.1 1.0 μA 2 VIN 1.5 − 5.5 V − ON / OFF pin input voltage "H" VSH 1.0 − − V 4 ON / OFF pin input voltage "L" VSL − − 0.25 V 4 −0.1 − 0.1 μA 4 ON / OFF pin input current "H" ISH − VIN = VOUT(S) + 1.0 V, RL = 1.0 kΩ determined by VOUT output level VIN = VOUT(S) + 1.0 V, RL = 1.0 kΩ determined by VOUT output level B / D type (without pull-down registor) VIN = 5.5 V, VON / OFF = 5.5 V A / C type (with pull-down registor) 1.0 2.5 5.0 μA 4 −0.1 − 0.1 μA 4 − 75 − dB 5 − 70 − dB 5 − 65 − dB 5 Ishort VIN = VOUT(S) + 1.0 V, 1.0 V ≤ VOUT(S) ≤ 1.2 V f = 1.0 kHz, 1.2 V < VOUT(S) ≤ 2.85 V ΔVrip = 0.5 Vrms, 2.85 V < VOUT(S) ≤ 3.5 V IOUT = 30 mA VIN = VOUT(S) + 1.0 V, ON / OFF pin = ON, VOUT = 0 V − 50 − mA 3 TSD Junction temperature − 150 − °C − TSR Junction temperature − 120 − °C − RLOW VOUT = 0.1 V, VIN = 5.5 V − 35 − Ω 3 1.0 2.2 5.0 MΩ 4 ON / OFF pin input current "L" Ripple rejection Short-circuit current Thermal shutdown detection temperature Thermal shutdown release temperature Discharge shunt resistance during power-off ISL RR Power-off pull-down resistance RPD VIN = 5.5 V, VON / OFF = 0 V − A / B type (with discharge shunt function) A / C type (with pull-down registor) 9 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 *1. VOUT(S): Set output voltage VOUT(E): Actual output voltage Output voltage when fixing IOUT (= 30 mA) and inputting VOUT(S) + 1.0 V *2. The output current at which the output voltage becomes 95% of VOUT(E) after gradually increasing the output current. *3. Vdrop = VIN1 − (VOUT3 × 0.98) VOUT3 is the output voltage when VIN = VOUT(S) + 1.0 V and IOUT = 100 mA. VIN1 is the input voltage at which the output voltage becomes 98% of VOUT3 after gradually decreasing the input voltage. *4. A change in the temperature of the output voltage [mV/°C] is calculated using the following equation. ΔVOUT ΔVOUT [mV/°C]*1 = VOUT(S) [V]*2 × ΔTa•VOUT [ppm/°C]*3 ÷ 1000 ΔTa *1. Change in temperature of output voltage *2. Set output voltage *3. Output voltage temperature coefficient *5. The output current can be at least this value. Due to restrictions on the package power dissipation, this value may not be satisfied. Attention should be paid to the power dissipation of the package when the output current is large. This specification is guaranteed by design. 10 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Test Circuits VIN + VOUT ON / OFF VSS V A + Set to ON Figure 10 Test Circuit 1 + A VIN VOUT ON / OFF VSS Set to VIN or GND Figure 11 Test Circuit 2 VIN VOUT ON / OFF A V + VSS Set to VIN or GND Figure 12 Test Circuit 3 VIN + A VOUT ON / OFF V + VSS RL Figure 13 Test Circuit 4 VIN VOUT ON / OFF V VSS + RL Set to ON Figure 14 Test Circuit 5 11 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Standard Circuit Input Output VOUT VIN CIN*1 ON / OFF VSS Single GND *1. *2. CL *2 GND CIN is a capacitor for stabilizing the input. A ceramic capacitor of 0.22 μF or more can be used as CL. Figure 15 Caution The above connection diagram and constants will not guarantee successful operation. Perform thorough evaluation using the actual application to set the constants.  Condition of Application Input capacitor (CIN): Output capacitor (CL): 0.22 μF or more 0.22 μF or more Caution Generally a series regulator may cause oscillation, depending on the selection of external parts. Confirm that no oscillation occurs in the application for which the above capacitors are used.  Selection of Input and Output Capacitors (CIN, CL) The S-1312 Series requires an output capacitor between the VOUT pin and the VSS pin for phase compensation. Operation is stabilized by a ceramic capacitor with an output capacitance of 0.22 μF or more over the entire temperature range. When using an OS capacitor, a tantalum capacitor, or an aluminum electrolytic capacitor, the capacitance must be 0.22 μF or more. The value of the output overshoot or undershoot transient response varies depending on the value of the output capacitor. The required capacitance of the input capacitor differs depending on the application. The recommended capacitance for an application is CIN ≥ 0.22 μF, CL ≥ 0.22 μF; however, when selecting the output capacitor, perform sufficient evaluation, including evaluation of temperature characteristics, on the actual device. 12 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Explanation of Terms 1. Low dropout voltage regulator This voltage regulator has the low dropout voltage due to its built-in low on-resistance transistor. 2. Output voltage (VOUT) The accuracy of the output voltage is ensured at ±1.0% or ±15 mV*1 under the specified conditions of fixed input voltage*2, fixed output current, and fixed temperature. *1. *2. When VOUT < 1.5 V: ±15 mV, when VOUT ≥ 1.5 V: ±1.0% Differs depending on the product. Caution If the above conditions change, the output voltage value may vary and exceed the accuracy range of the output voltage. Refer to " Electrical Characteristics" and " Characteristics (Typical Data)" for details. ΔVOUT1  3. Line regulation  ΔVIN•VOUT  Indicates the dependency of the output voltage on the input voltage. That is, the values show how much the output voltage changes due to a change in the input voltage with the output current remaining unchanged. 4. Load regulation (ΔVOUT2) Indicates the dependency of the output voltage on the output current. That is, the values show how much the output voltage changes due to a change in the output current with the input voltage remaining unchanged. 5. Dropout voltage (Vdrop) Indicates the difference between input voltage (VIN1) and the output voltage when; decreasing input voltage (VIN) gradually until the output voltage has dropped out to the value of 98% of output voltage (VOUT3), which is at VIN = VOUT(S) + 1.0 V. Vdrop = VIN1 − (VOUT3 × 0.98) 13 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 ΔVOUT  6. Output voltage temperature coefficient  ΔTa•VOUT  The shaded area in Figure 16 is the range where VOUT varies in the operation temperature range when the output voltage temperature coefficient is ±130 ppm/°C. Example of VOUT = 1.0 V typ. product VOUT [V] +0.13 mV/°C VOUT(E)*1 −0.13 mV/°C −40 *1. +25 +85 Ta [°C] VOUT(E) is the value of the output voltage measured at Ta = +25°C. Figure 16 A change in the temperature of the output voltage [mV/°C] is calculated using the following equation. ΔVOUT ΔVOUT [mV/°C]*1 = VOUT(S) [V]*2 × ΔTa•VOUT [ppm/°C]*3 ÷ 1000 ΔTa *1. Change in temperature of output voltage *2. Set output voltage *3. Output voltage temperature coefficient 14 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Operation 1. Basic operation Figure 17 shows the block diagram of the S-1312 Series. The error amplifier compares the reference voltage (Vref) with feedback voltage (Vfb), which is the output voltage resistance-divided by feedback resistors (Rs and Rf). It supplies the gate voltage necessary to maintain the constant output voltage which is not influenced by the input voltage and temperature change, to the output transistor. VIN *1 Current supply Error amplifier Vref VOUT − Rf + Vfb Reference voltage circuit Rs VSS *1. Parasitic diode Figure 17 2. Output transistor In the S-1312 Series, a low on-resistance P-channel MOS FET is used as the output transistor. Be sure that VOUT does not exceed VIN + 0.3 V to prevent the voltage regulator from being damaged due to inverse current flowing from the VOUT pin through a parasitic diode to the VIN pin, when the potential of VOUT became higher than VIN. 15 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 3. ON / OFF pin This pin starts and stops the regulator. When the ON / OFF pin is set to OFF level, the entire internal circuit stops operating, and the built-in P-channel MOS FET output transistor between the VIN pin and the VOUT pin is turned off, reducing current consumption significantly. Note that the current consumption increases when a voltage of 0.25 V to VIN − 0.3 V is applied to the ON / OFF pin. The ON / OFF pin is configured as shown in Figure 18 and Figure 19. 3. 1 S-1312 Series A / C type The ON / OFF pin is internally pulled down to the VSS pin in the floating status, so the VOUT pin is set to the VSS level. For the ON / OFF pin current, refer to the A / C type of the ON / OFF pin input current "H" in " Electrical Characteristics". 3. 2 S-1312 Series B / D type The ON / OFF pin is internally not pulled up or pulled down, so do not use this pin in the floating status. When not using the ON / OFF pin, connect the pin to the VIN pin. Product Type A/B/C/D A/B/C/D Table 13 Internal Circuit VOUT Pin Voltage Operate Set value Stop VSS level ON / OFF Pin "H": ON "L": OFF Current Consumption ISS1*1 ISS2 *1. Note that the IC's current consumption increases as much as current flows into the pull-down resistor when the ON / OFF pin is connected to the VIN pin and the S-1312 Series A / C type is operating (refer to Figure 18). VIN ON / OFF ON / OFF VSS Figure 18 S-1312 Series A / C type 16 VIN VSS Figure 19 S-1312 Series B / D type 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 4. Discharge shunt function (S-1312 Series A / B type) The S-1312 Series A / B type has a built-in discharge shunt circuit to discharge the output capacitance. The output capacitance is discharged as follows so that the VOUT pin reaches the VSS level. (1) The ON / OFF pin is set to OFF level. (2) The output transistor is turned off. (3) The discharge shunt circuit is turned on. (4) The output capacitor discharges. Since the S-1312 Series C / D type does not have a discharge shunt circuit, the VOUT pin is set to the VSS level through several hundred kΩ internal divided resistors between the VOUT pin and the VSS pin. The S-1312 Series A / B type allows the VOUT pin to reach the VSS level rapidly due to the discharge shunt circuit. S-1312 Series Output transistor : OFF *1 VOUT VIN Discharge shunt circuit : ON *1 ON / OFF ON / OFF circuit Output capacitor (CL) ON / OFF pin : OFF Current flow GND VSS *1. Parasitic diode Figure 20 5. Pull-down resistor (S-1312 Series A / C type) The ON / OFF pin is internally pulled down to the VSS pin in the floating status, so the VOUT pin is set to the VSS level. Note that the IC's current consumption increases as much as current flows into the pull-down resistor of 2.2 MΩ typ. when the ON / OFF pin is connected to the VIN pin and the S-1312 Series A / C type is operating. 17 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 6. Overcurrent protection circuit The S-1312 Series includes an overcurrent protection circuit having the characteristics shown in "1. Output vs. Output current (When load current increases) (Ta = +25°C)" in " Characteristics (Typical Data)", in protect the output transistor against an excessive output current and short circuiting between the VOUT pin VSS pin. The current when the output pin is short-circuited (Ishort) is internally set at approx. 50 mA typ., normal value is restored for the output voltage, if releasing a short circuit once. voltage order to and the and the Caution This overcurrent protection circuit does not work as for thermal protection. If this IC long keeps short circuiting inside, pay attention to the conditions of input voltage and load current so that, under the usage conditions including short circuit, the loss of the IC will not exceed power dissipation of the package. 7. Thermal shutdown circuit The S-1312 Series has a thermal shutdown circuit to protect the device from damage due to overheat. When the junction temperature rises to 150°C typ., the thermal shutdown circuit operates to stop regulating. When the junction temperature drops to 120°C typ., the thermal shutdown circuit is released to restart regulating. Due to self-heating of the S-1312 Series, if the thermal shutdown circuit starts operating, it stops regulating so that the output voltage drops. When regulation stops, the S-1312 Series does not itself generate heat and the IC's temperature drops. When the temperature drops, the thermal shutdown circuit is released to restart regulating, thus the S-1312 Series generates heat again. Repeating this procedure makes the waveform of the output voltage into a pulse-like form. Stop or restart of regulation continues unless decreasing either or both of the input voltage and the output current in order to reduce the internal power consumption, or decreasing the ambient temperature. Table 14 Thermal Shutdown Circuit Operate: 150°C typ.*1 Release: 120°C typ.*1 *1. 18 Junction temperature VOUT Pin Voltage VSS level Set value Rev.2.6_00 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series  Precautions • Wiring patterns for the VIN pin, the VOUT pin and GND should be designed so that the impedance is low. When mounting an output capacitor between the VOUT pin and the VSS pin (CL) and a capacitor for stabilizing the input between the VIN pin and the VSS pin (CIN), the distance from the capacitors to these pins should be as short as possible. • Note that generally the output voltage may increase when a series regulator is used at low load current (1.0 mA or less). • Note that generally the output voltage may increase due to the leakage current from an output driver when a series regulator is used at high temperature. • Note that the output voltage may increase due to the leakage current from an output driver even if the ON / OFF pin is at OFF level when a series regulator is used at high temperature. • Generally a series regulator may cause oscillation, depending on the selection of external parts. The following conditions are recommended for the S-1312 Series. However, be sure to perform sufficient evaluation under the actual usage conditions for selection, including evaluation of temperature characteristics. Refer to "5. Example of equivalent series resistance vs. Output current characteristics (Ta = +25°C)" in " Reference Data" for the equivalent series resistance (RESR) of the output capacitor. Input capacitor (CIN): Output capacitor (CL): 0.22 μF or more 0.22 μF or more • The voltage regulator may oscillate when the impedance of the power supply is high and the input capacitance is small or an input capacitor is not connected. • If the output capacitance is small, power supply's fluctuation and the characteristics of load fluctuation become worse. Sufficiently evaluate the output voltage's fluctuation with the actual device. • Overshoot may occur in the output voltage momentarily if the voltage is rapidly raised at power-on or when the power supply fluctuates. Sufficiently evaluate the output voltage at power-on with the actual device. • The application conditions for the input voltage, the output voltage, and the load current should not exceed the package power dissipation. • Do not apply an electrostatic discharge to this IC that exceeds the performance ratings of the built-in electrostatic protection circuit. • In determining the output current, attention should be paid to the output current value specified in Table 12 in " Electrical Characteristics" and footnote *5 of the table. • ABLIC Inc. claims no responsibility for any disputes arising out of or in connection with any infringement by products including this IC of patents owned by a third party. 19 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Characteristics (Typical Data) 1. Output voltage vs. Output current (When load current increases) (Ta = +25°C) 1. 2 VOUT = 2.5 V 1.2 3.0 1.0 2.5 VIN = 1.3 V VIN = 1.5 V 0.8 0.6 VIN = 2.0 V VIN = 3.0 V VIN = 5.5 V 0.4 0.2 0 0 100 200 300 IOUT [mA] 400 VOUT [V] VOUT [V] 1. 1 VOUT = 1.0 V VIN = 2.8 V VIN = 3.0 V VIN = 3.5 V VIN = 4.5 V VIN = 5.5 V 2.0 1.5 1.0 0.5 0 500 0 100 200 300 IOUT [mA] 400 500 VOUT [V] 1. 3 VOUT = 3.5 V 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 Remark VIN = 3.8 V VIN = 4.0 V VIN = 4.5 V VIN = 5.5 V 0 100 200 300 IOUT [mA] 400 In determining the output current, attention should be paid to the following. 1. The minimum output current value and footnote *5 in Table 12 in " Electrical Characteristics" 2. The package power dissipation 500 2. Output voltage vs. Input voltage (Ta = +25°C) 2. 1 VOUT = 1.0 V 2. 2 VOUT = 2.5 V 1.2 1.0 VOUT [V] VOUT [V] 1.1 IOUT = 1 mA IOUT = 30 mA IOUT = 50 mA IOUT = 100 mA 0.9 0.8 0.7 0.6 0.6 1.0 1.4 1.8 VIN [V] 2.2 2.6 5.0 5.5 VOUT [V] 2. 3 VOUT = 3.5 V 3.7 3.6 3.5 3.4 3.3 3.2 3.1 3.0 IOUT = 1 mA IOUT = 30 mA IOUT = 50 mA IOUT = 100 mA 3.0 20 3.5 4.0 4.5 VIN [V] 2.7 2.6 2.5 2.4 2.3 2.2 2.1 2.0 IOUT = 1 mA IOUT = 30 mA IOUT = 50 mA IOUT = 100 mA 2.0 2.5 3.0 3.5 VIN [V] 4.0 4.5 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 3. Dropout voltage vs. Output current 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 3. 2 VOUT = 2.5 V Ta = +85°C Ta = +25°C Ta = −40°C 0 25 50 100 75 IOUT [mA] Vdrop [V] Vdrop [V] 3. 1 VOUT = 1.0 V 125 150 125 150 0.40 0.35 0.30 0.25 0.20 0.15 0.10 0.05 0 Ta = +85°C Ta = +25°C Ta = −40°C 0 25 50 100 75 IOUT [mA] 125 150 3. 3 VOUT = 3.5 V 0.30 Vdrop [V] 0.25 Ta = +85°C Ta = +25°C Ta = −40°C 0.20 0.15 0.10 0.05 0 0 25 50 100 75 IOUT [mA] 4. Dropout voltage vs. Set output voltage 0.6 IOUT = 150 mA IOUT = 100 mA IOUT = 50 mA IOUT = 10 mA IOUT = 30 mA IOUT = 1 mA Vdrop [V] 0.5 0.4 0.3 0.2 0.1 0 1.0 1.5 2.0 2.5 VOUT(S) [V] 3.0 3.5 21 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 5. Output voltage vs. Ambient temperature 5. 2 VOUT = 2.5 V 1.10 2.7 1.05 2.6 VOUT [V] VOUT [V] 5. 1 VOUT = 1.0 V 1.00 0.95 0.90 2.5 2.4 −40 −25 2.3 0 25 Ta [°C] 50 75 85 0 25 Ta [°C] 50 75 85 −40 −25 0 25 Ta [°C] 75 85 50 5. 3 VOUT = 3.5 V 3.8 VOUT [V] 3.7 3.6 3.5 3.4 3.3 3.2 −40 −25 6. Current consumption vs. Input voltage 6. 2 VOUT = 2.5 V 35 30 25 20 15 10 5 0 Ta = +85°C ISS1 [μA] ISS1 [μA] 6. 1 VOUT = 1.0 V Ta = +25°C Ta = −40°C 0 1 2 3 VIN [V] 4 5 6 ISS1 [μA] 6. 3 VOUT = 3.5 V 35 30 25 20 15 10 5 0 Ta = +85°C Ta = −40°C 0 22 Ta = +25°C 1 2 3 VIN [V] 4 5 6 35 30 25 20 15 10 5 0 Ta = +85°C Ta = +25°C Ta = −40°C 0 1 2 3 VIN [V] 4 5 6 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 7. Ripple rejection (Ta = +25°C) 7. 2 VOUT = 2.5 V 7. 1 VOUT = 1.0 V 100 IOUT = 1 mA 80 60 IOUT = 30 mA IOUT = 100 mA IOUT = 150 mA 40 20 0 10 100 1k 10k 100k Frequency [Hz] VIN = 3.5 V, CL = 0.22 μF Ripple Rejection [dB] Ripple Rejection [dB] VIN = 2.0 V, CL = 0.22 μF 1M 100 IOUT = 1 mA 80 60 IOUT = 30 mA IOUT = 100 mA IOUT = 150 mA 40 20 0 10 100 1k 10k 100k Frequency [Hz] 1M 7. 3 VOUT = 3.5 V Ripple Rejection [dB] VIN = 4.5 V, CL = 0.22 μF 100 IOUT = 1 mA 80 60 40 IOUT = 30 mA IOUT = 100 mA IOUT = 150 mA 20 0 10 100 1k 10k 100k Frequency [Hz] 1M 23 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Reference Data 1. Transient response characteristics when input (Ta = +25°C) 1. 1 VOUT = 1.0 V 1. 2 VOUT = 2.5 V 2.74 2.70 2.66 2.62 2.58 2.54 2.50 2.46 2.42 5.0 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 VIN VOUT −40 −20 0 VIN [V] IOUT = 30 mA, CL = 0.22 μF, VIN = 3.5 V ↔ 4.5 V, tr = tf = 5.0 μs VOUT [V] VIN [V] VOUT [V] IOUT = 30 mA, CL = 0.22 μF, VIN = 2.0 V ↔ 3.0 V, tr = tf = 5.0 μs 4.0 1.12 3.5 1.10 3.0 1.08 1.06 2.5 VIN 1.04 2.0 1.02 1.5 VOUT 1.0 1.00 0.5 0.98 0 0.96 −40 −20 0 20 40 60 80 100 120 140 t [μs] 1. 3 VOUT = 3.5 V 20 40 60 80 100 120 140 t [μs] VIN [V] VOUT [V] IOUT = 30 mA, CL = 0.22 μF, VIN = 4.5 V ↔ 5.5 V, tr = tf = 5.0 μs 6.0 3.74 5.5 3.70 5.0 3.66 VIN 3.62 4.5 3.58 4.0 3.54 3.5 VOUT 3.0 3.50 2.5 3.46 2.0 3.42 −40 −20 0 20 40 60 80 100 120 140 t [μs] 2. Transient response characteristics of load (Ta = +25°C) 2. 1 VOUT = 1.0 V 2. 2 VOUT = 2.5 V 1.10 IOUT 100 2.65 50 2.60 0 1.05 1.00 2.70 VOUT −50 100 IOUT 50 0 2.55 2.50 VOUT −50 −100 2.45 −100 0.90 −150 2.40 −150 −20 −10 0 10 20 30 t [μs] 40 50 60 VIN = 4.5 V, CIN = CL = 0.22 μF, IOUT = 50 mA ↔ 100 mA 150 3.70 3.60 100 IOUT 50 0 3.55 3.50 VOUT −50 3.45 −100 3.40 −150 −20 −10 0 10 20 30 t [μs] 40 50 60 IOUT [mA] 3.65 VOUT [V] 150 0.95 2. 3 VOUT = 3.5 V 24 VOUT [V] VOUT [V] 1.15 150 IOUT [mA] 1.20 VIN = 3.5 V, CIN = CL = 0.22 μF, IOUT = 50 mA ↔ 100 mA −20 −10 0 10 20 30 t [μs] 40 50 60 IOUT [mA] VIN = 2.0 V, CIN = CL = 0.22 μF, IOUT = 50 mA ↔ 100 mA 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 3. Transient response characteristics of ON / OFF pin (Ta = +25°C) 3. 2 VOUT = 2.5 V VIN = 2.0 V, CIN = CL = 0.22 μF, IOUT = 100 mA, VON / OFF = 0 V → 2.0 V, tr = 1.0 μs 2.4 3 1 1.2 0 0.8 −1 VOUT VOUT [V] 2 VON / OFF 1.6 VON / OFF [V] VOUT [V] 2.0 VIN = 3.5 V, CIN = CL = 0.22 μF, IOUT = 100 mA, VON / OFF = 0 V → 3.5 V, tr = 1.0 μs 6 6 V ON / OFF 5 4 4 3 −2 −4 −2 1 0 −3 0 0 50 100 t [μs] 150 200 0 VOUT 2 0.4 −50 2 −50 0 50 100 t [μs] 150 200 VON / OFF [V] 3. 1 VOUT = 1.0 V −6 3. 3 VOUT = 3.5 V VIN = 4.5 V, CIN = CL = 0.22 μF, IOUT = 100 mA, VON / OFF = 0 V → 4.5 V, tr = 1.0 μs 6 6 4 VON / OFF 4 2 3 0 VOUT 2 −2 1 −4 0 −50 0 50 100 t [μs] 150 200 VON / OFF [V] VOUT [V] 5 −6 25 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 4. Output capacitance vs. Characteristics of discharge time (Ta = +25°C) VIN = VOUT + 1.0 V, IOUT = no load, VON / OFF = VOUT + 1.0 V → VSS, tf = 1.0 μs 1.0 μs VON / OFF 2.5 VOUT(S) = 1.0 V VOUT(S) = 2.5 V VOUT(S) = 3.5 V tDSC [ms] 2.0 1.5 VSS tDSC 1.0 VOUT 0.5 0 0 2 4 6 CL [μF] 8 10 12 VOUT × 10% VIN = VOUT + 1.0 V VON / OFF = VOUT + 1.0 V → VSS Figure 21 S-1312 Series A / B type (with discharge shunt function) Figure 22 Measurement Condition of Discharge Time 5. Example of equivalent series resistance vs. Output current characteristics (Ta = +25°C) CIN = CL = 0.22 μF 100 RESR [Ω] VIN VOUT CIN Stable ON / OFF 0 0.1 S-1312 Series VSS 180 CL *1 RESR IOUT [mA] *1. CL: TDK Corporation Figure 23 26 C2012X7R1H224K (0.22 μF) Figure 24 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00  Marking Specifications 1. SOT-23-5 Top view 5 4 (1) to (3): (4): Product code (Refer to Product name vs. Product code) Lot number (1) (2) (3) (4) 1 2 3 Product name vs. Product code 1. 1 S-1312 Series A type Product Name S-1312A12-M5T1U3 S-1312A18-M5T1U3 S-1312A25-M5T1U3 S-1312A33-M5T1U3 1. 2 S-1312 Series B type Product Code (1) (2) (3) 1 D C 1 D J 1 D R 1 D 1 1. 3 S-1312 Series C type Product Name S-1312C12-M5T1U3 S-1312C18-M5T1U3 S-1312C25-M5T1U3 S-1312C33-M5T1U3 Product Name S-1312B12-M5T1U3 S-1312B18-M5T1U3 S-1312B25-M5T1U3 S-1312B33-M5T1U3 (1) 1 1 1 1 Product Code (2) (3) E C E J E R E 1 (1) 1 1 1 1 Product Code (2) (3) G C G J G R G 1 1. 4 S-1312 Series D type Product Code (1) (2) (3) 1 F C 1 F J 1 F R 1 F 1 Product Name S-1312D12-M5T1U3 S-1312D18-M5T1U3 S-1312D25-M5T1U3 S-1312D33-M5T1U3 27 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 2. HSNT-4 (1010) Top view 4 3 (1) to (3): (4), (5): Product code (Refer to Product name vs. Product code) Lot number (1) (2) (3) (4) (5) 1 2 Product name vs. Product code 2. 1 S-1312 Series A type Product Name S-1312A12-A4T2U3 S-1312A18-A4T2U3 S-1312A25-A4T2U3 S-1312A33-A4T2U3 2. 2 S-1312 Series B type (1) 1 1 1 1 Product Code (2) (3) D C D J D R D 1 2. 3 S-1312 Series C type Product Name S-1312C12-A4T2U3 S-1312C18-A4T2U3 S-1312C25-A4T2U3 S-1312C33-A4T2U3 28 Product Name S-1312B12-A4T2U3 S-1312B18-A4T2U3 S-1312B25-A4T2U3 S-1312B33-A4T2U3 (1) 1 1 1 1 Product Code (2) (3) E C E J E R E 1 (1) 1 1 1 1 Product Code (2) (3) G C G J G R G 1 2. 4 S-1312 Series D type (1) 1 1 1 1 Product Code (2) (3) F C F J F R F 1 Product Name S-1312D12-A4T2U3 S-1312D18-A4T2U3 S-1312D25-A4T2U3 S-1312D33-A4T2U3 5.5 V INPUT, 150 mA VOLTAGE REGULATOR S-1312 Series Rev.2.6_00 3. HSNT-4 (0808) Top view 4 (1) to (3): Product code (Refer to Product name vs. Product code) 3 (1) (2) (3) 1 2 Product name vs. Product code 3. 1 S-1312 Series A type Product Name S-1312A12-A4T1U3 S-1312A18-A4T1U3 S-1312A25-A4T1U3 S-1312A33-A4T1U3 3. 2 S-1312 Series B type Product Code (1) (2) (3) 1 1 1 1 D D D D C J R 1 3. 3 S-1312 Series C type Product Name S-1312C12-A4T1U3 S-1312C18-A4T1U3 S-1312C25-A4T1U3 S-1312C33-A4T1U3 Product Name S-1312B12-A4T1U3 S-1312B18-A4T1U3 S-1312B25-A4T1U3 S-1312B33-A4T1U3 (1) 1 1 1 1 Product Code (2) (3) E E E E C J R 1 3. 4 S-1312 Series D type (1) 1 1 1 1 Product Code (2) (3) F C F J F R F 1 Product Name S-1312D12-A4T1U3 S-1312D18-A4T1U3 S-1312D25-A4T1U3 S-1312D33-A4T1U3 (1) 1 1 1 1 Product Code (2) (3) G C G J G R G 1 29 2.9±0.2 1.9±0.2 4 5 1 2 0.16 3 +0.1 -0.06 0.95±0.1 0.4±0.1 No. MP005-A-P-SD-1.3 TITLE SOT235-A-PKG Dimensions No. MP005-A-P-SD-1.3 ANGLE UNIT mm ABLIC Inc. 4.0±0.1(10 pitches:40.0±0.2) ø1.5 ø1.0 +0.1 -0 +0.2 -0 2.0±0.05 0.25±0.1 4.0±0.1 1.4±0.2 3.2±0.2 3 2 1 4 5 Feed direction No. MP005-A-C-SD-2.1 TITLE SOT235-A-Carrier Tape No. MP005-A-C-SD-2.1 ANGLE UNIT mm ABLIC Inc. +1.0 - 0.0 9.0 11.4±1.0 Enlarged drawing in the central part ø13±0.2 (60°) (60°) No. MP005-A-R-SD-2.0 TITLE SOT235-A-Reel No. MP005-A-R-SD-2.0 ANGLE QTY. UNIT mm ABLIC Inc. 3,000 0.38±0.02 0.65 3 4 1 2 1.00±0.04 0.20±0.05 +0.05 0.08 -0.02 The heat sink of back side has different electric potential depending on the product. Confirm specifications of each product. Do not use it as the function of electrode. No. PL004-A-P-SD-1.1 TITLE HSNT-4-B-PKG Dimensions No. PL004-A-P-SD-1.1 ANGLE UNIT mm ABLIC Inc. 2.0±0.05 +0.1 ø1.5 -0 1.12±0.05 2 1 3 4 ø0.5 4.0±0.05 +0.1 -0 0.25±0.05 2.0±0.05 0.5±0.05 Feed direction No. PL004-A-C-SD-2.0 TITLE HSNT-4-B-C a r r i e r Tape No. PL004-A-C-SD-2.0 ANGLE UNIT mm ABLIC Inc. 9.0 +1.0 - 0.0 11.4±1.0 Enlarged drawing in the central part ø13±0.2 (60°) (60°) No. PL004-A-R-SD-2.0 HSNT-4-B-Reel TITLE PL004-A-R-SD-2.0 No. QTY. ANGLE UNIT mm ABLIC Inc. 10,000 Land Pattern 0.30min. 0.38~0.48 0.38~0.48 0.07 0.65±0.02 (1.02) Caution It is recommended to solder the heat sink to a board in order to ensure the heat radiation. PKG Metal Mask Pattern Aperture ratio Aperture ratio Caution Mask aperture ratio of the lead mounting part is 100%. Mask aperture ratio of the heat sink mounting part is 40%. Mask thickness: t0.10mm to 0.12 mm 100% 40% t0.10mm ~ 0.12 mm TITLE No. PL004-A-L-SD-2.0 HSNT-4-B -Land Recommendation PL004-A-L-SD-2.0 No. ANGLE UNIT mm ABLIC Inc. 0.38±0.02 0.40 3 4 1 2 0.80±0.04 0.08 +0.05 -0.02 The heat sink of back side has different electric potential depending on the product. Confirm specifications of each product. Do not use it as the function of electrode. 0.20±0.05 No. PK004-A-P-SD-2.1 TITLE HSNT-4-A-PKG Dimensions No. PK004-A-P-SD-2.1 ANGLE UNIT mm ABLIC Inc. ø1.5 2.0±0.05 +0.1 -0 4.0±0.05 0.25±0.05 ø0.5 +0.1 -0 2.0±0.05 0.5±0.05 0.93±0.05 2 1 3 4 Feed direction No. PK004-A-C-SD-3.0 TITLE HSNT-4-A-C a r r i e r Tape No. PK004-A-C-SD-3.0 ANGLE UNIT mm ABLIC Inc. 9.0 +1.0 - 0.0 11.4±1.0 Enlarged drawing in the central part ø13±0.2 (60°) (60°) No. PK004-A-R-SD-3.0 TITLE HSNT-4-A-Reel No. PK004-A-R-SD-3.0 ANGLE UNIT QTY. mm ABLIC Inc. 10,000 Land Pattern 0.22min. 0.27~0.32 0.27~0.32 0.05 0.40±0.02 (0.82) Caution It is recommended to solder the heat sink to a board in order to ensure the heat radiation. PKG Metal Mask Pattern Aperture ratio Aperture ratio Caution Mask aperture ratio of the lead mounting part is 100%. Mask aperture ratio of the heat sink mounting part is 40%. Mask thickness: t0.10mm to 0.12 mm 100% 40% t0.10mm ~ 0.12 mm TITLE HSNT-4-A -Land Recommendation PK004-A-L-SD-3.0 No. No. PK004-A-L-SD-3.0 ANGLE UNIT mm ABLIC Inc. Disclaimers (Handling Precautions) 1. All the information described herein (product data, specifications, figures, tables, programs, algorithms and application circuit examples, etc.) is current as of publishing date of this document and is subject to change without notice. 2. The circuit examples and the usages described herein are for reference only, and do not guarantee the success of any specific mass-production design. ABLIC Inc. is not liable for any losses, damages, claims or demands caused by the reasons other than the products described herein (hereinafter "the products") or infringement of third-party intellectual property right and any other right due to the use of the information described herein. 3. ABLIC Inc. is not liable for any losses, damages, claims or demands caused by the incorrect information described herein. 4. Be careful to use the products within their ranges described herein. Pay special attention for use to the absolute maximum ratings, operation voltage range and electrical characteristics, etc. ABLIC Inc. is not liable for any losses, damages, claims or demands caused by failures and / or accidents, etc. due to the use of the products outside their specified ranges. 5. Before using the products, confirm their applications, and the laws and regulations of the region or country where they are used and verify suitability, safety and other factors for the intended use. 6. When exporting the products, comply with the Foreign Exchange and Foreign Trade Act and all other export-related laws, and follow the required procedures. 7. The products are strictly prohibited from using, providing or exporting for the purposes of the development of weapons of mass destruction or military use. ABLIC Inc. is not liable for any losses, damages, claims or demands caused by any provision or export to the person or entity who intends to develop, manufacture, use or store nuclear, biological or chemical weapons or missiles, or use any other military purposes. 8. The products are not designed to be used as part of any device or equipment that may affect the human body, human life, or assets (such as medical equipment, disaster prevention systems, security systems, combustion control systems, infrastructure control systems, vehicle equipment, traffic systems, in-vehicle equipment, aviation equipment, aerospace equipment, and nuclear-related equipment), excluding when specified for in-vehicle use or other uses by ABLIC, Inc. Do not apply the products to the above listed devices and equipments. ABLIC Inc. is not liable for any losses, damages, claims or demands caused by unauthorized or unspecified use of the products. 9. In general, semiconductor products may fail or malfunction with some probability. The user of the products should therefore take responsibility to give thorough consideration to safety design including redundancy, fire spread prevention measures, and malfunction prevention to prevent accidents causing injury or death, fires and social damage, etc. that may ensue from the products' failure or malfunction. The entire system in which the products are used must be sufficiently evaluated and judged whether the products are allowed to apply for the system on customer's own responsibility. 10. The products are not designed to be radiation-proof. The necessary radiation measures should be taken in the product design by the customer depending on the intended use. 11. The products do not affect human health under normal use. However, they contain chemical substances and heavy metals and should therefore not be put in the mouth. The fracture surfaces of wafers and chips may be sharp. Be careful when handling these with the bare hands to prevent injuries, etc. 12. When disposing of the products, comply with the laws and ordinances of the country or region where they are used. 13. The information described herein contains copyright information and know-how of ABLIC Inc. The information described herein does not convey any license under any intellectual property rights or any other rights belonging to ABLIC Inc. or a third party. Reproduction or copying of the information from this document or any part of this document described herein for the purpose of disclosing it to a third-party is strictly prohibited without the express permission of ABLIC Inc. 14. For more details on the information described herein or any other questions, please contact ABLIC Inc.'s sales representative. 15. This Disclaimers have been delivered in a text using the Japanese language, which text, despite any translations into the English language and the Chinese language, shall be controlling. 2.4-2019.07 www.ablic.com
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