FEATURES Highest power rating with long life – Standard parts stocked* APPLICATIONS Wearable electronic & IoT devices – Memory backup circuits Nominal Voltage Operating Temperature Range 3.7VDC (4.2VDC to 3.0VDC) -20°C to +60°C -20°C to +60°C (one month) -20°C to +40°C (up to 3 months) -20°C to +25°C (up to 1 year) See part listing 0.2C rate, 3.0V cut-off See part listing 0.2C rate, 3.0V cut-off 4.2VDC + 0.03V 0.5CA < 3.0 hours Constant Current/ Constant Voltage (CCCV) 0.2CA 2CA 3.0V Graphite Lithium nickel manganese cobalt oxide Storage Temperature Range Storage Capacity Nominal Minimum Charging Voltage Charging current Charging Time Charging method Discharge Current Standard Maximum Discharge Cut-off Voltage Anode Cathode Standard Part Listing Capacity (mAh) Discharge Maximum Maximum Current Internal Weight Diameter (mA) Resistance (G) (mm) Nom. Min. (mΩ) STD MAX RJD2032C1 85 80 40 16 160 600 3.4 20 RJD2048 120 110 60 24 240 700 4.2 20. RJD2430C1 110 104 55 22 220 500 4.5 24.5 RJD2440 150 140 75 30 300 700 5.4 24.5 RJD2450 200 190 100 40 400 500 6.5 24.5 RJD3032* 200 190 100 40 400 600 7.2 30 RJD3048* 300 290 150 60 600 400 9.3 30 RJD3555* 500 490 250 100 1000 200 14 35.2 * Additional stocked standard cells with PCM (protection circuit module) & connector RJD3032HPPV30M RJD3048HPPV30M D3555HPPV30M IC Part Number Charging Current (mA) Height (mm) 3.5 5.0 3.15 4.3 5.4 3.4 4.8 5.7 Termination Styles Bare Cell - (Standard) Style - T0 Style - ST1 Style - T1 Style - SP8 Style - ST9 Style - SP9 Style - WL Style - ST8 Style - T9 Style – SW Style - HP Contact IC if other termination type is preferred Part Numbering RJD 2032C1 Section 1 AAA Section 2 BBB Section 3 CCC Section 4 D Section 5 Section 1 – IC standard part number (Bare cell) Section 2 – Optional lead style (see above options) HP lead style can be supplied with a PCM (Protection Circuit Module).PCM is recommended. PCM Type: Powerlogics part # RJD9901 (see Protection Circuit Module section for complete specifications). PCM Included with Connector P Connector without PCM N Section 3 - Wire gauge if other than #30AWG (Standard) AWG Code AWG Code AWG 12 A 16 E 20 13 B 17 F 21 14 C 18 G 22 15 D 19 H 23 Contact IC if other wire gauge is desired. Code J K L M AWG 24 25 26 27 Code N P Q R AWG 28 29 30 31 Section 4 – Lead Length. Specify lead length in mm. Section 5 – Connector option (types SW and HP) IC Code M J Connector Manufacturer Molex JST Connector Part Number 51021-0200 ACHR-02V-S Code T U V W AWG 32 33 34 35 Code X Y Z O Markings Standard (bare cells) Non-Standard Terminations Cell Dimensions Fresh Cell IC Part Number RJD2032C1 RJD2048 RJD2430C1 RJD2440 RJD2450 RJD3032 RJD3048 RJD3555 Shipping (Charged) Maximum Maximum Diameter Height (mm) (mm) 20 3.5 20 5 24.5 3.15 24.5 4.3 24.5 5.4 30 3.4 30 4.8 35.2 5.7 Full Charge Maximum Maximum Diameter Height (mm) (mm) 20 3.6 20 5.2 24.5 3.25 24.5 4.4 24.5 5.5 30 3.5 30 4.9 35.2 5.8 Cycled cell (after 500 cycles) Full Charge Maximum Maximum Diameter Height (mm) (mm) 20 3.7 20 5.3 24.5 3.3 24.5 4.5 24.5 5.6 30 3.6 30 5.2 35.2 5.9 Protection Circuit Module (RJD 9901) (Optional for HP lead style) - Specification RJD 9901 Main IC SP31ABE PCB SALTEK, APEX FET X PTC MicroSMD175F-2 (TE) L terminal X Capacitor 2Point Resistor 2Point Dimension(L*W*T) 16.9*3.9*2.0mm Wake-up Function NO Overcharge Detection Voltage 4.275V ± 25mV Overcharge Detection Delay Time 700.0mSec ~ 1300mSec Specification Over-Discharge Detection Voltage Over-Discharge Detection Delay Time Over-Discharge Current Detection Overcharge Current Detection Over-Discharge Current Protection Delay Time Short Detection Delay Time PCM Impedance Operation Current Consumption Power-Down Mode Current Consumption Distance Between B+, B- Tab RJD 9901 2.242V~2.358V 14.0mSec~26.0mSec 1.2 ~ 4.0A 0.9A ~ 4.4A 8.0mSec ~ 16.0mSec 100μs ~ 500μs < 220mΩ Max 6.0μA(TYP 4.0μA) Max 0.1μA 13.93mm Battery Operation Instruction: Charging a. Charge the battery in a temperature range of 0°C to + 45°C. b. Charge the battery at a constant current of 0.5C until 4.20VDC±0.03VDC per cell is attained. Charge rates greater than 1C are NOT recommended. (C: Rated Capacity of Battery) c. Maintain charge voltage at 4.20VDC per cell for 3.0 hours (recommended for maximum capacity). * Use a constant current, constant voltage (CC/CV) lithium-ion (Li+) battery charge controller. * Do not continue to charge battery over specified time. Discharging a. Recommended cut-off voltage to 3.0VDC. Recommended maximum discharge rate is 2C at constant current. b. For maximum performance, discharge the battery in a temperature range of –20°C to + 45°C. Protection Circuit Protection circuit can be provided upon request. However, protection circuit may be omitted for most applications without damaging performance and safety. Please consult our engineering staff for technical advice. Storage Recommendations a. Storage Temperature and Humidity Storage the battery at temperature range of –20 ~ +45°C, low humidity and no corrosive gas atmosphere No condensation on the battery. b. Long Period Storage In case of long period storage (more than 3 months), storage the battery at temperature range of –20 ~ +25°C, low humidity, no corrosive gas atmosphere. Standard Test Conditions Unless otherwise specified, all tests are conducted at 25°C + 3°C and relative humidity of 65% + 20%. Electrical Characteristics Standard Charge and Discharge Conditions A. The "Standard Charge" means charging the Cell with initial charge current (0.5C) and with a constant voltage of 4.2VDC (+ 0.03VDC) and the specified cut-off current (see table 1) at 25°C for 3 hours. B. Standard discharge means discharging cell with constant discharge current (0.2C)(see table 1) and with 3.0VDC cut-off voltage at 25°C C. Initial Discharge Capacity D. The initial capacity measured under the standard test conditions E. Initial Discharge Capacity: See standard part listing F. Initial Internal Impedance: see standard part listing G. Internal resistance measured at 1 kHz after Standard Charge. H. Initial internal impedance: See standard part listing I. Cycle Life (500 cycles): See table 1 J. Temperature dependence of discharge capacity. See discharge table. K. Relative capacity at each temperature measured with a constant discharge current (0.2C) with 3.0VDC cutoff after the standard charge shown below Discharge Table IC Part Number RJD2032C1 RJD2048 RJD2430C1 RJD2440 RJD2450 RJD3032 RJD3048 RJD3555 Discharge Temperature -20°C -10°C 25°C 60°C >60 % >60 % >60 % >60 % >60 % >60 % >60 % >60 % >80% >80% >80% >80% >80% >80% >80% >80% 100 % 100 % 100 % 100 % 100 % 100 % 100 % 100 % >95% >80% >95% >80% >80% >80% >80% >80% Table 1 IC Part Number Charging Current (0.5C) (mA) RJD2032C1 RJD2048 RJD2430C1 RJD2440 RJD2450 RJD3032 RJD3048 RJD3555 40 60 55 75 100 100 150 250 Constant Discharge Current (0.2C) (mA) 16 24 22 30 40 40 60 100 Charging end condition (at CV mode) (mA) 2.4 3.6 3.3 4.5 6 6 9 15 Capacity after 500 cycles (mAh) 56 77 72.8 98 133 133 203 350 Discharge Characteristics on Current Load (C-Rate) Relative capacity at each load, measured with constant discharge current 0.2C, 0.5C, 1.0C, 2C with 3.0VDC cut-off after Standard Charge shown below. Charge Current Standard Charge Discharge Current 0.2 CA 100 % 0.5 CA > 95 % 1 CA > 90 % 2.0 CA > 50% Shipment The Cell shall be shipped with 30% of the nominal voltage. (Nominal Cell voltage range: 3.7 ~ 3.8 V). 30% SOC is only for air transport. Storage Characteristics After storage at the conditions listed below, the battery is measured at the standard charge and discharge condition stated above. Storage Condition Charge State Capacity Retention Capacity Recovery 20 days at 60oC Shipping charge - > 85% 20 days at 60oC Full charge > 70% > 85% 60 days at 60 C Full charge > 40% > 60% 30 days at 60oC, 90%RH Full charge > 40% > 70% o Safety Test Test High Temperature High Temperature and High Humidity Thermal Shock Test Hot Box Test Overcharge Test Impact Test Short-Circuit Test Nail Test Applying Pressure Test Method Storing a cell at 90°C for 4 hours after being charged to 4.2VDC Storing a cell at 60°C for 1 week after being charged to 4.2VDC Store a fully charged cell (4.2VDC) at 60°C for 2 hours then at -20°C for 2 hours. 10 cycles with a maximum transition time of 5 minutes. A cell is to be heated in a gravity convection oven. The temperature of the oven is to be raised 5°C+/- 2°C per minute to a temperature of 130°C and remain at that temperature for 10 minutes Charge the test samples with constant current (3C) and voltage 4.5VDC. Test samples remain on test for 2.5 hours A test cell is to be placed on a flat surface. The bar of 9.1 kg weight and 15.8 mm diameter is dropped from a height of 610 mm onto the cell. A cell is to be short-circuited by connecting the positive and negative terminals of the battery with copper wire having a maximum resistance load of 100mΩ. A stainless steel nail having a diameter of 4.0 mm is punched through the cell until the nail has passed through the opposite side of the cell. Placing pressure on entire surface of a fully charged cell with 7kg for 72 hours Criteria No leakage No leakage No leakage No explosion, No fire No explosion, No fire No explosion, No fire No fire or explosion, until battery is completely discharged No explosion, No fire No leakage, No weight decrease Precautions and Safety Instructions Lithium-Ion rechargeable batteries subjected to abusive conditions can become damaged and/or cause personal injury. Please read and observe the standard battery precautions below before using. Note 1. The customer is required to contact Illinois Capacitor in advance, if and when the customer needs other applications or operating conditions other than those described in this document. Note 2. Illinois Capacitor will take no responsibility for any accident where the cell is used under other conditions than those described in this document. Precautions and Safety Instructions: a. b. c. d. e. f. g. h. i. j. k. l. m. n. o. p. q. r. s. t. u. v. Do not expose the battery to extreme heat or flame. Do not short circuit, over-charge or over-discharge the battery. Do not subject the battery to strong mechanical shocks. Do not immerse the battery in water or sea water, or get it wet. Do not reverse the polarity of the battery for any reason. Do not disassemble or modify the battery. Do not remove charge/discharge protection circuitry. Do not handle or store with metallic objects like necklaces, coins or hairpins, etc. Do not use the battery with possible damage or deformation. Do not connect battery to the plug socket or car-cigarette-plug. Do not make the direct soldering onto a battery. Spot weld lead plate onto a battery. Soldering iron temperature should be limited to 350°C with a soldering time of <5 seconds. Do not place batteries in a solder bath. Do not touch a leaked battery directly. D o not use for other equipment. Do not use Lithium-ion battery in mixture. Do not use or leave the battery under direct sunlight (or in heated car by sunshine). Keep battery away from children. Do use the specified charger and observe charging requirement Do not drive a nail into battery or strike battery with a battery or insert a screw into the battery Do not smash or throw battery. Recharge the battery every 6 months. Follow recommended charging conditions when charging battery. Warnings: a. Do not swallow. Keep out of reach of infants and children. If swallowed call physician immediately. b. Do not put battery in microwave or pressure cooker. c. Do not use battery together with a primary battery, such as dry battery types or batteries with different capacities. d. Do not replace battery with a different type or model. e. Discontinue use of battery if an unusual odor, discoloration, deformation, internal heating or other unusual characteristic changes are detected. f. Do not have any leaked electrolyte come in contact with eyes. If contact occurs flush eyes immediately with water and consult a doctor. g. If charging does not stop after expected charging time, stop charging battery. Requirement for Safety Assurance For the sake of safety assurance, please discuss the equipment design, its system and protection circuit of Lithiumion battery with Illinois capacitor in advance. And consult about the high rate current, rapid charge and special application in the same way.