V DET1(S) to V DET3(S) = 10.5 V to 21.5 V (0.1 V step)

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S-8229 Series www.ablicinc.com BATTERY MONITORING IC ABLIC Inc., 2012-2017 Rev.1.1_01 The S-8229 Series is a battery monitoring IC developed using CMOS technology. Compared with conventional CMOS voltage detectors, the S-8229 Series is ideal for the applications that require high-withstand voltage due to its maximum operation voltage as high as 24 V. The S-8229 Series is capable of confirming the voltage in stages since it detects three voltage values. Features Detection voltage accuracy: 1.0% Hysteresis characteristics: V HYS1 to V HYS3 = 0 mv, 50 mv, 300 mv, 400 mv, 500 mv Current consumption: During operation: I DD1 = 9.0 A max. (V *1 DETtotal 42 V) I DD1 = 11.0 A max. (V *1 DETtotal 42 V) During power-off: I DD2 = 0.1 A max. Operation voltage range: V DD = 3.6 V to 24 V Detection voltage: V DET1(S) to V DET3(S) = 10.5 V to 21.5 V (0.1 V step) Output form: Nch open-drain output Output logic *2 : Full charge all on, full charge all off Operation temperature range: Ta = 40C to 85C Lead-free (Sn 100%), halogen-free *1. V DETtotal : Total detection voltage V DETtotal = V DET1(S) V DET2(S) V DET3(S) *2. Full charge all on: When the input voltage is equal to or higher than each of the three detection voltage values, V OUT1 = V OUT2 = V OUT3 = V SS. Full charge all off: When the input voltage is equal to or higher than each of the three detection voltage values, V OUT1 = V OUT2 = V OUT3 = "High-Z". Application Rechargeable lithium-ion battery pack Packages SOT-23-6 SNT-6A 1

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 Block Diagram VDD ON / OFF Nch 1 OUT1 OUT2 Nch 2 OUT3 V REF Nch 3 VSS Remark Diodes in the figure are parasitic diodes. Figure 1 2

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Product Name Structure 1. Product name S-8229 xxx - xxxx U *1. Refer to the tape drawing. *2. Refer to "3. Product name list". 2. Packages Environmental code U: Lead-free (Sn 100%), halogen-free Package abbreviation and IC packing specifications *1 M6T1: SOT-23-6, Tape I6T1: SNT-6A, Tape Serial code *2 Sequentially set from AAA to AZZ Table 1 Package Drawing Codes Package Name Dimension Tape Reel Land SOT-23-6 MP006-A-P-SD MP006-A-C-SD MP006-A-R-SD SNT-6A PG006-A-P-SD PG006-A-C-SD PG006-A-R-SD PG006-A-L-SD 3

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 3. Product name list 3. 1 SOT-23-6 Product Name Detection Voltage 1 [V DET1(S) ] Detection Voltage 2 [V DET2(S) ] Table 2 Detection Voltage 3 [V DET3(S) ] Hysteresis Width 1 [V HYS1(S) ] Hysteresis Width 2 [V HYS2(S) ] Hysteresis Width 3 [V HYS3(S) ] Output Logic *1 S-8229AAA-M6T1U 19.400 V 18.100 V 15.300 V 0 V 0 V 0 V Full charge all on S-8229AAB-M6T1U 19.400 V 18.100 V 15.300 V 0.500 V 0.500 V 0.500 V Full charge all on S-8229AAC-M6T1U 19.500 V 18.000 V 15.500 V 0.050 V 0.050 V 0.050 V Full charge all on S-8229AAG-M6T1U 15.600 V 14.800 V 13.600 V 0.500 V 0.500 V 0.500 V Full charge all on S-8229AAH-M6T1U 20.000 V 18.500 V 16.000 V 0.500 V 0.500 V 0.500 V Full charge all on S-8229AAI-M6T1U 20.000 V 18.500 V 16.000 V 0.050 V 0.050 V 0.050 V Full charge all on S-8229AAJ-M6T1U 15.100 V 14.300 V 13.100 V 0.500 V 0.500 V 0.500 V Full charge all on S-8229AAK-M6T1U 15.600 V 14.400 V 12.400 V 0 V 0 V 0 V Full charge all on *1. Full charge all on: When the input voltage is equal to or higher than each of the three detection voltage values, V OUT1 = V OUT2 = V OUT3 = V SS. Full charge all off: When the input voltage is equal to or higher than each of the three detection voltage values, V OUT1 = V OUT2 = V OUT3 = "High-Z". Remark Please contact our sales office for products other than the above. 3. 2 SNT-6A Product Name Detection Voltage 1 [V DET1(S) ] Detection Voltage 2 [V DET2(S) ] Table 3 Detection Voltage 3 [V DET3(S) ] Hysteresis Width 1 [V HYS1(S) ] Hysteresis Width 2 [V HYS2(S) ] Hysteresis Width 3 [V HYS3(S) ] Output Logic *1 S-8229AAF-I6T1U 18.000 V 15.000 V 21.500 V 0.050 V 0.050 V 0.050 V Full charge all on *1. Full charge all on: When the input voltage is equal to or higher than each of the three detection voltage values, V OUT1 = V OUT2 = V OUT3 = V SS. Full charge all off: When the input voltage is equal to or higher than each of the three detection voltage values, V OUT1 = V OUT2 = V OUT3 = "High-Z". Remark Please contact our sales office for products other than the above. 4

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Pin Configurations 1. SOT-23-6 Top view 6 5 4 1 2 3 Figure 2 Table 4 Pin No. Symbol Description 1 OUT1 Voltage detection output pin 1 2 OUT2 Voltage detection output pin 2 3 OUT3 Voltage detection output pin 3 4 VSS GND pin 5 VDD Voltage input pin 6 ON / OFF ON / OFF pin 2. SNT-6A 1 2 3 Top view Figure 3 6 5 4 Table 5 Pin No. Symbol Description 1 OUT3 Voltage detection output pin 3 2 OUT2 Voltage detection output pin 2 3 OUT1 Voltage detection output pin 1 4 ON / OFF ON / OFF pin 5 VDD Voltage input pin 6 VSS GND pin 5

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 Absolute Maximum Ratings Table 6 (Ta = 25 C unless otherwise specified) Item Symbol Absolute Maximum Rating Unit Input voltage V DD V SS 0.3 to V SS 26 V V ON / OFF V SS 0.3 to V SS 26 V Output voltage n V OUTn V SS 0.3 to V SS 26 V Power dissipation SOT-23-6 650 *1 mw P D SNT-6A 400 *1 mw Operation ambient temperature T opr 40 to 85 C Storage temperature T stg 40 to 125 C *1. When mounted on board [Mounted board] (1) Board size: 114.3 mm 76.2 mm t1.6 mm (2) Name: JEDEC STANDARD51-7 Caution 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. Power Dissipation (P D ) [mw] 800 600 400 200 SOT-23-6 SNT-6A 0 0 50 100 150 Ambient Temperature (Ta) [C] Figure 4 Power Dissipation of Package (When Mounted on Board) Remark n = 1 to 3 6

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Electrical Characteristics Table 7 (Ta = 25 C unless otherwise specified) Item Symbol Condition Min. Typ. Max. Unit Detection voltage n *1 V DETn Hysteresis width n *2 ON / OFF pin input voltage "H" ON / OFF pin input voltage "L" Operation voltage range between VDD pin and VSS pin Current consumption during operation Current consumption during power-off Output sink current n Output leak current n Detection voltage temperature coefficient *4 V HYSn V DETn(S) 0.99 300 mv V HYSn(S) 500 mv V HYSn(S) 0.8 V HYSn(S) 0 V V HYSn(S) 50 mv 0.025 V DETn(S) V DETn(S) 1.01 V HYSn(S) V HYSn(S) 1.2 V HYSn(S) V HYSn(S) 0.025 Test Circuit V 1 V 1 V 1 V SH V1 = V3 = 22 V 1.5 V 1 V SL V1 = V3 = 22 V 0.3 V 1 V DD 3.6 24 V I DD1 V1 = 22 V, V2 = 3 V, V *3 DETtotal 42 V V1 = 22 V, V2 = 3 V, V *3 DETtotal 42 V 4.0 9.0 A 2 5.0 11.0 A 2 I DD2 V1 = 22 V, V2 = 0 V 0.1 A 2 Full charge all on, V1 = 22 V, V2 = 3 V, 10 ma 3 I OUTn V3 = 1 V Full charge all off, V1 = 10 V, V2 = 3 V, V3 = 1 V 5 ma 3 I LEAKn V1 = 22 V, V2 = 0 V, V3 = 22 V 0.1 A 3 V DETn Ta V DETn Ta = 40 C to 85 C *5 100 200 ppm/ C 1 *1. V DETn : Actual detection voltage value, V DETn(S) : Set detection voltage *2. V HYSn : Actual hysteresis width, V HYSn(S) : Set hysteresis width *3. V DETtotal : Total detection voltage V DETtotal = V DET1(S) V DET2(S) V DET3(S) *4. The Change in temperature of the detection voltage [mv/ C] is calculated by using the following equation. V DETn Ta [mv/ C] *1 = V DETn(S) (typ.) [V] *2 V DETn Ta V DETn [ppm/ C] *3 1000 *1. Change in temperature of the detection voltage *2. Set detection voltage *3. Detection voltage temperature coefficient *5. Since products are not screened at high and low temperature, the specification for this temperature range is guaranteed by design, not tested in production. Remark n = 1 to 3 7

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 Test Circuits 100 k 100 k 100 k VDD ON / OFF S-8229 Series VSS OUT1 OUT2 OUT3 V3 V1 V2 V OUT1 V OUT2 V OUT3 V V V Figure 5 Test Circuit 1 I DD A VDD OUT1 ON / OFF S-8229 Series VSS OUT2 OUT3 V1 V2 Figure 6 Test Circuit 2 I OUT1 A AI OUT2 A I OUT3 VDD S-8229 Series OUT1 OUT2 V3 ON / OFF VSS OUT3 V1 V2 Figure 7 Test Circuit 3 8

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Standard Circuit R OUT1 R OUT2 R OUT3 R1 C1 VDD S-8229 Series OUT1 OUT2 ON / OFF VSS OUT3 Figure 8 Table 8 Constants for External Components Symbol Purpose Typ. Remark R1 *1 For power fluctuation 470 Set the value as small as possible to prevent deterioration of the detection voltage. C1 For power fluctuation 0.1 F Set R1 C1 40 10 6. *2 Make sure the power dissipation of the S-8229 Series is R OUTn For output pin pull-up 100 k not exceeded. *1. Set up R1 as 100 k or less to prevent oscillation. *2. Set up each of R OUTn as 620 or more so that the power dissipation is not exceeded. Caution The above connection diagram and constant will not guarantee successful operation. Perform thorough evaluation using the actual application to set the constant. Remark n = 1 to 3 9

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 Operation 1. Basic operation The basic operation when V ON / OFF V SH is shown as follows. 1. 1 When the power supply voltage (V DD ) increases The OUTn pin becomes release status if V DD is equal to or higher than the release voltage (V DETn ). Table 9 Set Conditions at Releasing Output Logic V OUTn Nch n Full charge all on V SS On Full charge all off High-Z Off 1. 2 When V DD decreases The OUTn pin becomes detection status if V DD is equal to or lower than the detection voltage (V DETn ). Table 10 Set Conditions at Detecting Output Logic V OUTn Nch n Full charge all on High-Z Off Full charge all off V SS On 1. 3 When V DD minimum operation voltage The OUTn pin voltage is indefinite. Remark n = 1 to 3 2. ON / OFF pin This pin starts and stops the S-8229 Series. When V ON / OFF is set to V SL or lower, the entire internal circuit stops operating, and Nch n (refer to Figure 1 in " Block Diagram") is turned off, reducing current consumption significantly. The ON / OFF pin is configured as shown in Figure 9. The ON / OFF pin is not internally pulled up or pulled down, so do not use the ON / OFF pin in the floating status. When not using the ON / OFF pin, connect the pin to the VDD pin. VDD ON / OFF VSS Figure 9 Remark n = 1 to 3 10

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Timing Charts 1. Nch open-drain output (full charge all on, V ON / OFF V SH ) VDD pin voltage V DET1 V DET1 V DET2 V DET2 V DET3 V DET3 Minimum operation voltage OUT1 pin voltage High-Z OUT2 pin voltage V SS High-Z V SS OUT3 pin voltage High-Z V SS Figure 10 Remark When V DD is equal to or lower than the minimum operation voltage, the output voltage from the OUT1 pin to the OUT3 pin is indefinite in the shaded area. 11

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 2. Nch open-drain output (full charge all off, V ON / OFF V SH ) VDD pin voltage V DET1 V DET1 V DET2 V DET2 V DET3 V DET3 Minimum operation voltage OUT1 pin voltage High-Z OUT2 pin voltage V SS High-Z V SS OUT3 pin voltage High-Z V SS Figure 11 Remark When V DD is equal to or lower than the minimum operation voltage, the output voltage from the OUT1 pin to the OUT3 pin is indefinite in the shaded area. 12

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Application Circuits 1. Detection of residual quantity of the battery used by LED R OUT1 R OUT2 R OUT3 R1 VDD OUT1 LED1 LED2 LED3 C1 S-8229 Series OUT2 ON / OFF VSS OUT3 Figure 12 Caution The above connection diagram and constant will not guarantee successful operation. Perform thorough evaluation using the actual application to set the constant. 2. Change of detection voltage When the detection voltage is changed by using a resistance divider, set R A 100 k to prevent oscillation, as shown in Figure 13. The detection voltage after changing is calculated by using the following equation. Detection voltage = R A R B R B V DETn R A I DD R A R OUT1 R OUT2 R OUT3 VDD OUT1 R B C1 S-8229 Series ON / OFF VSS OUT2 OUT3 Figure 13 Caution 1. Note that the detection voltage may deviate from the value determined by the ratio of R A and R B in the case of the above connection diagram. 2. The above connection diagram and constant will not guarantee successful operation. Perform thorough evaluation using the actual application to set the constant. Remark n = 1 to 3 13

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 3. Short-circuit of the output pin In the case of V DET1(S) = V DET2(S) = V DET3(S), V DET1 = V DET2 = V DET3, the load current can be increased by short-circuiting the output pin, as shown in Figure 14. R OUT *1 R1 C1 VDD S-8229 Series ON / OFF VSS OUT1 OUT2 OUT3 *1. Set up R OUT as 220 or more so that the power dissipation is not exceeded. Figure 14 Caution The above connection diagram and constant will not guarantee successful operation. Perform thorough evaluation using the actual application to set the constant. 14

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Precautions The application conditions for the input voltage, output voltage, and output pin pull-up resistance should not exceed the package power dissipation. Wiring patterns for the VDD pin, the VOUT pin and the VSS pin should be designed so that the impedance is low. Note that the detection voltage may deviate due to the resistance component of output sink current and the VSS pin wiring. In applications where a resistor is connected to the input (refer to Figure 8 in " Standard Circuit"), the feed-through current which is generated when the output switches causes a voltage drop equal to feed-through current input resistance. In this state, the feed-through current stops and its resultant voltage drop disappears, and the output switches. The feed-through current is then generated again, a voltage drop appears. Note that an oscillation may be generated for this reason. When designing for mass production using an application circuit described herein, the product deviation and temperature characteristics should be taken into consideration. ABLIC Inc. shall not bear any responsibility for patent infringements related to products using the circuits described herein. Do not apply an electrostatic discharge to this IC that exceeds the performance ratings of the built-in electrostatic protection circuit. 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. 15

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 Characteristics (Typical Data) 1. Detection voltage 1. 1 V DETn vs. Ta 21.7 V DETn(S) = 21.5 V 17.7 V DETn(S) = 17.5 V VDETn [V] 21.6 21.5 21.4 VDETn [V] 17.6 17.5 17.4 21.3 40 25 0 25 50 75 85 Ta [ C] 17.3 40 25 0 25 50 75 85 Ta [ C] 10.60 V DETn(S) = 10.5 V VDETn [V] 10.55 10.50 10.45 10.40 40 25 0 25 50 75 85 Ta [ C] 2. Hysteresis width 2. 1 V HYSn vs. Ta VHYSn [V] 0.60 0.55 0.50 0.45 0.40 V HYSn(S) = 0.5 V 40 25 0 25 50 75 85 Ta [ C] VHYSn [V] 0.36 0.34 0.32 0.30 0.28 0.26 0.24 V HYSn(S) = 0.3 V 40 25 0 25 50 75 85 Ta [ C] VHYSn [V] 0.08 0.07 0.06 0.05 0.04 0.03 0.02 V HYSn(S) = 0.05 V 40 25 0 25 50 75 85 Ta [ C] Remark n = 1 to 3 16

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series 3. Current consumption 3. 1 I DD1 vs. V DD 3. 2 I DD1 vs. Ta S-8229AAA Ta = 25C S-8229AAA V DD = 22 V 12 6.0 IDD1 [μa] 9 6 3 IDD1 [μa] 4.0 2.0 0 0 5 10 15 20 25 VDD [V] 0 40 25 0 25 50 75 85 Ta [ C] 3. 3 I DD2 vs. Ta S-8229AAA 0.10 IDD2 [μa] 0.08 0.06 0.04 0.02 0 V DD = 22 V 40 25 0 25 50 75 85 Ta [ C] 4. Output current 4. 1 I OUTn vs. V OUTn 4. 2 I OUTn vs. V DD V DD = 22 V V OUTn = 1 V 120 70 Ta = 40 C Ta = 40 C 100 60 80 Ta = +25 C Ta = +25 C 50 60 Ta = +85 C 40 40 30 20 20 Ta = +85 C 0 10 0 0.5 1.0 1.5 2.0 5 10 15 20 25 30 VOUTn [V] VDD [V] IOUTn [ma] IOUTn [ma] Remark n = 1 to 3 17

BATTERY MONITORING IC S-8229 Series Rev.1.1_01 5. Response time 5. 1 t DETn vs. V DETn 5. 2 t RELn vs. V DETn tdetn [ms] 100 80 60 40 20 V DETn = V DETn V DD, Ta = 25C VDETn = 21.5 V VDETn = 17.5 V VDETn = 10.5 V treln [ms] 20 15 10 5 V DETn = V DD (V DETn ), Ta = 25C +VDETn = 22.0 V +VDETn = 17.5 V +VDETn = 10.5 V 0 1 10 100 1000 Δ VDETn [mv] 0 1 10 100 1000 Δ+VDETn [mv] VDD pin voltage V DETn V DETn V DETn V DETn V OUTn OUTn pin voltage (Full charge all on) V DD t DETn t RELn V SS V OUTn OUTn pin voltage (Full charge all off) V DD t DETn t RELn V SS Figure 15 Test Condition of Response Time Remark 1. Refer to "Figure 5 Test Circuit 1" for the test condition of the response time. 2. n = 1 to 3 18

Rev.1.1_01 BATTERY MONITORING IC S-8229 Series Marking Specifications 1. SOT-23-6 Top view 6 5 4 (1) to (3): Product code (Refer to Product name vs. Product code) (4): Lot number (1) (2) (3) (4) 1 2 3 Product name vs. Product code Product Code Product Name (1) (2) (3) S-8229AAA-M6T1U Y S A S-8229AAB-M6T1U Y S B S-8229AAC-M6T1U Y S C S-8229AAG-M6T1U Y S G S-8229AAH-M6T1U Y S H S-8229AAI-M6T1U Y S I S-8229AAJ-M6T1U Y S J S-8229AAK-M6T1U Y S K 2. SNT-6A Top view 6 5 4 (1) to (3): Product code (Refer to Product name vs. Product code) (4) to (6): Lot number (1) (2) (3) (4) (5) (6) 1 2 3 Product name vs. Product code Product Code Product Name (1) (2) (3) S-8229AAF-I6T1U Y S F 19

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 responsible for damages 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 responsible for damages caused by the incorrect information described herein. 4. Be careful to use the products within their specified ranges. Pay special attention to the absolute maximum ratings, operation voltage range and electrical characteristics, etc. ABLIC Inc. is not responsible for damages caused by failures and / or accidents, etc. that occur due to the use of the products outside their specified ranges. 5. When 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 must not be used or provided (exported) for the purposes of the development of weapons of mass destruction or military use. ABLIC Inc. is not responsible for any provision (export) to those whose purpose is to develop, manufacture, use or store nuclear, biological or chemical weapons, missiles, or other military use. 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. Do not apply the products to the above listed devices and equipments without prior written permission by ABLIC Inc. Especially, the products cannot be used for life support devices, devices implanted in the human body and devices that directly affect human life, etc. Prior consultation with our sales office is required when considering the above uses. ABLIC Inc. is not responsible for damages caused by unauthorized or unspecified use of our products. 9. 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 must be sufficiently evaluated and applied 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 without the express permission of ABLIC Inc. is strictly prohibited. 14. For more details on the information described herein, contact our sales office. 2.0-2018.01 www.ablicinc.com

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