SGM4056 High Input Voltage Charger

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GENERAL DESCRIPTION The SGM456 is a cost-effective, fully integrated high input voltage single-cell Li-ion battery charger. The charger uses a CC/CV charge profile required by Li-ion battery. The charger accepts an input voltage up to 26.5V but is disabled when the input voltage exceeds the OVP threshold, typically 6.8V (SGM456-6.8) or 1.5V (SGM456-1.5), to prevent excessive power dissipation. The 26.5V rating eliminates the overvoltage protection circuit required in a low input voltage charger. The charge current and the end-of-charge (EOC) current are programmable with external resistors. When the battery voltage is lower than typically 2.55V, the charger preconditions the battery with typically 18% of the programmed charge current. When the charge current reduces to the programmable EOC current level during the CV charge phase, an EOC indication is provided by the CHG pin, which is an open-drain output. An internal thermal foldback function protects the charger from any thermal failure. Two indication pins ( PPR and CHG ) allow simple interface to a microprocessor or LEDs. When no adapter is attached or when disabled, the charger draws less than 1μA leakage current from the battery. The SGM456 is available in Green TDFN-3 3-8L, TDFN-2 3-8L, TDFN-2 2-8L and SOIC-8 (Exposed Pad) packages and is rated over the -4 to +85 temperature range. FEATURES Complete Charger for Single-Cell Li-ion or Polymer Batteries Integrated Pass Element and Current Sensor No External Blocking Diode Required Low Component Count and Cost Programmable Charge Current Programmable End-of-Charge Current Charge Current Thermal Foldback for Thermal Protection 2.55V Trickle Charge Threshold 6.8V Input Over-Voltage Protection for SGM456-6.8 1.5V Input Over-Voltage Protection for SGM456-1.5 26.5V Maximum Voltage for the Power Input Power Presence and Charge Indications Less than 1μA Leakage Current off the Battery When No Input Power Attached or Charger Disabled Available in Green TDFN-3 3-8L, TDFN-2 3-8L, TDFN-2 2-8L and SOIC-8 (Exposed Pad) Packages APPLICATIONS Mobile Phones Blue-Tooth Devices PDAs MP3 Players Stand-Alone Chargers Other Handheld Devices REV. A. 2

PACKAGE/ORDERING INFORMATION MODEL V OVP (V) PACKAGE DESCRIPTION ORDER NUMBER 6.8V TDFN-3 3-8L SGM456-6.8YTDB8G/TR 6.8V TDFN-2 3-8L SGM456-6.8YTDC8G/TR PACKAGE MARKING SGM G9DB XXXXX SGB XXXX PACKING OPTION Tape and Reel, 3 Tape and Reel, 3 SGM456 6.8V TDFN-2 2-8L SGM456-6.8YTDE8G/TR 6.8V SOIC-8 (Exposed Pad) SGM456-6.8YPS8G/TR 1.5V TDFN-3 3-8L SGM456-1.5YTDB8G/TR 1.5V TDFN-2 3-8L SGM456-1.5YTDC8G/TR SG7 XXXX SGM 456-6.8YPS8 XXXXX SGM GADB XXXXX SGC XXXX Tape and Reel, 3 Tape and Reel, 25 Tape and Reel, 3 Tape and Reel, 3 1.5V TDFN-2 2-8L SGM456-1.5YTDE8G/TR 1.5V SOIC-8 (Exposed Pad) SGM456-1.5YPS8G/TR SG8 XXXX SGM 456-1.5YPS8 XXXXX Tape and Reel, 3 Tape and Reel, 25 NOTE: XXXX = Date Code. XXXXX = Date Code and Vendor Code. ABSOLUTE MAXIMUM RATINGS VIN to GND..... -.3V to 3V PPR, CHG, EN, IMIN, IREF, BAT to GND......-.3V to 6V Storage Temperature Range...-65 to +15 Package Thermal Resistance TDFN-3 3-8L, θ JA......84 /W TDFN-2 3-8L, θ JA....11 /W TDFN-2 2-8L, θ JA....118 /W SOIC-8 (Exposed Pad), θ JA..58 /W Junction Temperature...15 Operating Temperature Range...-4 to +85 Lead Temperature (Soldering 1 sec)... 26 ESD Susceptibility HBM...4V MM...2V NOTE: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. CAUTION This integrated circuit can be damaged by ESD if you don t pay attention to ESD protection. SGMICRO recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage. ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications. SGMICRO reserves the right to make any change in circuit design, specification or other related things if necessary without notice at any time. Please contact SGMICRO sales office to get the latest datasheet. 2

PIN CONFIGURATIONS (TOP VIEW) VIN PPR CHG 1 2 3 SGM456 GND 8 7 6 BAT IREF IMIN VIN PPR CHG 1 2 3 SGM456 GND 8 7 6 BAT IREF IMIN EN 4 5 GND EN 4 5 GND SOIC-8 (Exposed Pad) TDFN-3 3-8L/TDFN-2 3-8L/TDFN-2 2-8L PIN DESCRIPTION PIN NAME FUNCTION 1 VIN 2 PPR 3 CHG 4 EN Power Input. The absolute maximum input voltage is 26.5V. A 1μF or larger value X5R ceramic capacitor is recommended to be placed very close to the input pin for decoupling purpose. Additional capacitance may be required to provide a stable input voltage. Open-drain Power Presence Indication. The open-drain MOSFET turns on when the input voltage is above the POR threshold but below the OVP threshold and off otherwise. This pin is capable to sink 15mA (MIN) current to drive an LED. The maximum voltage rating for this pin is 5.5V. This pin is independent on the EN pin input. Open-drain Charge Indication. This pin outputs a logic low when a charge cycle starts and turns to high impedance when the end-of-charge (EOC) condition is qualified. This pin is capable to sink 15mA (MIN) current to drive an LED. When the charger is disabled, the CHG pin outputs high impedance. Enable Input. This is a logic input pin to disable or enable the charger. Drive to high to disable the charger. When this pin is driven to low or left floating, the charger is enabled. This pin has an internal 2kΩ pull-down resistor. 5 GND System Ground. 6 IMIN 7 IREF 8 BAT End-of-Charge (EOC) Current Programming Pin. Connect a resistor between this pin and the GND pin to set the EOC current. The EOC current I MIN can be programmed by the following equation: 17 IMIN.5 (ma) RIMIN where R IMIN is in kω. The programmable range covers 5% (or 1mA, whichever is higher) to 5% of IREF. When programmed to less than 5% or 1mA, the stability is not guaranteed. Charge-Current Programming and Monitoring Pin. Connect a resistor between this pin and the GND pin to set the charge current limit determined by the following equation: 128 IREF 4 (ma) RIREF where R IREF is in kω. The resistor should be located very close to this pin. The IREF pin voltage also monitors the actual charge current during the entire charge cycle, including the trickle, constant-current, and constant-voltage phases. When disabled, V IREF = V. Charger Output Pin. Connect this pin to the battery. A 1μF or larger X5R ceramic capacitor is recommended for decoupling and stability purposes. When the EN pin is pulled to logic high, the BAT output is disabled. 3

ELECTRICAL CHARACTERISTICS (, R IMIN = 243kΩ, T A = 25, unless otherwise noted.) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS RECOMMENDED OPERATING CONDITIONS Maximum Supply Voltage 26.5 V Operating SGM456-6.8 4.55 6.1 Supply Voltage SGM456-1.5 4.55 9.35 Programmed Charge Current 1 9 ma POWER-ON RESET Rising POR Threshold V POR V BAT = 3.V, R IREF = 12kΩ, 3.21 3.95 4.55 V Falling POR Threshold use PPR to indicate the comparator output. 2.86 3.6 4.35 V VIN-BAT OFFSET VOLTAGE V POR Rising Edge V OS V BAT = 4.5V, R IREF = 12kΩ, use PPR pin to 11 2 mv Falling Edge indicate the comparator output. (1) 5 6 mv OVER-VOLTAGE PROTECTION Over-Voltage Protection Threshold OVP Threshold Hysteresis STANDBY CURRENT V OS SGM456-6.8 6.1 6.8 7.26 V OVP SGM456-1.5 V BAT = 4.3V, R IREF = 12kΩ, 9.35 1.5 11.15 SGM456-6.8 use PPR to indicate the comparator output. V OVPHYS 14 22 3 SGM456-1.5 245 34 43 BAT Pin Sink Current I STANDBY Charger disabled or the input is floating 1 μa VIN Pin Supply Current I VIN V BAT = 4.3V,, charger disabled 2 275 μa VIN Pin Supply Current I VIN V BAT = 4.3V,, charger enabled 27 32 μa VOLTAGE REGULATION Output Voltage PMOS On Resistance CHARGE CURRENT (2) V CH R DS (ON), 4.55V < V IN < 6.1V, charge current = 2mA, 4.55V < V IN < 9.35V, charge current = 2mA V BAT = 3.8V, charge current = 5mA, R IREF = 1kΩ 4.152 4.2 4.248 4.152 4.2 4.248 V V mv V.7 Ω IREF Pin Output Voltage V IREF V BAT = 3.8V, R IREF = 12kΩ 1.162 1.215 1.262 V Constant Charge Current I REF, V BAT = 2.8V to 3.8V 44 5 56 ma Trickle Charge Current I TRK, V BAT = 2.4V 55 9 135 ma End-of-Charge Current I MIN 2 4 75 ma EOC Rising Threshold 315 37 435 ma PRECONDITIONING CHARGE THRESHOLD Preconditioning Charge Threshold Voltage V MIN 2.46 2.55 2.65 V Preconditioning Voltage Hysteresis V MINHYS 2 1 19 mv NOTES: 1. The 4.5V V BAT is selected so that the PPR output can be used as the indication for the offset comparator output indication. If the V BAT is lower than the POR threshold, no output pin can be used for indication. 2. The charge current can be affected by the thermal foldback function if the IC under the test setup cannot dissipate the heat. 4

ELECTRICAL CHARACTERISTICS (, R IMIN = 243kΩ, T A = 25, unless otherwise noted.) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS INTERNAL TEMPERATURE MONITORING Charge Current Foldback Threshold T FOLD 115 LOGIC INPUT AND OUTPUTS EN Pin Logic Input High 1.5 V EN Pin Logic Input Low.8 V EN Pin Internal Pull Down Resistance 15 2 25 kω CHG Sink Current when LOW Pin Voltage = 1V 15 24 ma CHG Leakage Current when High Impedance V CHG = 5.5V 2 μa PPR Sink Current when LOW Pin Voltage = 1V 15 24 ma PPR Leakage Current when High Impedance V PPR = 5.5V 2 μa 5

TYPICAL PERFORMANCE CHARACTERISTICS 2.6 Preconditioning Charge Threshold Voltage vs. Temperature 1.23 IREF Pin Output Voltage vs. Temperature 2.575 1.225 V MIN (V) 2.55 2.525 2.5 2.475 2.45 V IREF (V) 1.22 1.215 1.21 1.25 1.2 R IREF = 12kΩ V BAT = 3.8V Output Voltage vs. Temperature Charge Current vs. Temperature V CH (V) 4.215 4.21 4.25 4.2 4.195 4.19 4.185 Charge Current = 2mA I REF (ma) 6 5 4 3 2 1 V BAT = 3.8V TDFN-3 3-8L R IREF = 12kΩ 4.18 125 15 3. CHG Pin Current vs. Temperature (Sink) 3. PPR Pin Current vs. Temperature (Sink) 27.5 27.5 25. 25. I CHG (ma) 22.5 2. 17.5 15. V BAT = 3.8V V CHG = 1V I PPR (ma) 22.5 2. 17.5 15. V BAT = 3.8V V PPR = 1V 6

TYPICAL PERFORMANCE CHARACTERISTICS 3 VIN Pin Supply Current vs. Temperature 24 VIN Pin Supply Current vs. Temperature 28 22 26 2 I VIN (μa) 24 22 2 R IMIN = 243kΩ V BAT = 4.3V Charger Enabled I VIN (μa) 18 16 14 R IMIN = 243kΩ V BAT = 4.3V Charger Disabled 18 12 6.86 Over-Voltage Protection Threshold vs. Temperature 1.52 Over-Voltage Protection Threshold vs. Temperature 6.85 1.51 6.84 1.5 V OVP (V) 6.83 6.82 6.81 6.8 V BAT = 4.3V R IREF = 12kΩ SGM456-6.8 V OVP (V) 1.49 1.48 1.47 1.46 V BAT = 4.3V R IREF = 12kΩ SGM456-1.5 1. PMOS On Resistance vs. Temperature 12 Trickle Charge Current vs. Temperature.9 1 R DS (ON) (Ω).8.7.6.5 R IREF = 1kΩ Charge Current = 5mA V BAT = 3.8V I TRK (ma) 8 6 4 2 V BAT = 2.4V R IREF = 12kΩ.4 7

TYPICAL PERFORMANCE CHARACTERISTICS 8 Charge Current vs. Battery Voltage 6 Charge Current vs. Battery Voltage I REF (ma) 7 6 5 4 3 2 TDFN-3 3-8L 2.5 2.75 3 3.25 3.5 3.75 4 4.25 V BAT (V) I REF (ma) 5 4 3 2 1 T A = 25 T A = 4 T A = TDFN-3 3-8L 2. 2.4 2.8 3.2 3.6 4. 4.4 V BAT (V) 6 Charge Current vs. Supply Voltage 12 Trickle Charge Current vs. Supply Voltage I REF (ma) 5 4 3 2 1 V BAT = 3.8V TDFN-3 3-8L SGM456-1.5 R IREF = 12kΩ I TRK (ma) 1 8 6 4 2 V BAT = 2.4V SGM456-1.5 R IREF = 12kΩ 4 5 6 7 8 9 1 11 Supply Voltage (V) 4 5 6 7 8 9 1 11 Supply Voltage (V) 1.222 IREF Pin Voltage vs. Supply Voltage 4.21 Output Voltage vs. Supply Voltage 1.22 4.25 1.218 4.2 V IREF (V) 1.216 1.214 1.212 R IREF = 12kΩ V BAT = 3.8V SGM456-1.5 V CH (V) 4.195 4.19 4.185 Charge Current = 2mA SGM456-1.5 1.21 4 5 6 7 8 9 1 11 Supply Voltage (V) 4.18 4 5 6 7 8 9 1 11 Supply Voltage (V) 8

TYPICAL PERFORMANCE CHARACTERISTICS I CHG (ma) 1 9 8 7 6 5 4 3 2 1 CHG Pin I-V Curve V BAT = 3.8V..5 1. 1.5 2. 2.5 3. 3.5 4. 4.5 5. 5.5 V CHG (V) I PPR (ma) 1 9 8 7 6 5 4 3 2 1 PPR Pin I-V Curve V BAT = 3.8V..5 1. 1.5 2. 2.5 3. 3.5 4. 4.5 5. 5.5 V PPR (V) 1.2 IREF Pin Voltage vs. Charge Current 4.3 Output Voltage vs. Charge Current 1. 4.2 V IREF (V).8.6.4.2. 1 2 3 4 5 I REF (ma) V CH (V) 4.1 4. 3.9 3.8 3.7 3.6 R IREF = 1kΩ SOIC-8 (Exposed Pad) 1 2 3 4 5 6 I REF (ma) Complete Charge Cycle (15mAh Battery) 6 6 Charge Current (ma) 5 4 3 2 1 R IMIN = 243kΩ CHG Voltage Battery Voltage Charge Current 5 4 3 2 1 Battery Voltage (V) 1 2 3 4 Time (Hours) 9

TYPICAL PERFORMANCE CHARACTERISTICS Charge Current Programming ±2σ Tolerance Guide 7 6 +2σ End-of-Charge Current Programming ±2σ Tolerance Guide 7 6 +2σ 5 5 I REF (ma) 4 3 2-2σ mean I MIN (ma) 4 3 2-2σ mean 1 1 1 2 3 4 5 6 7 Programmed Charge Current (ma) 1 2 3 4 5 6 7 Programmed End-of-Charge Current (ma) 1

TYPICAL APPLICATIONS TO INPUT C1 VIN BAT IREF IMIN R IREF R1 TO BATTERY R2 C2 SGM456 CHG R IMIN D1 D2 ON OFF EN PPR GND Figure 1. Typical Application Circuit Interfacing to Indication LEDs TO INPUT C1 VIN BAT IREF IMIN R IREF TO BATTERY C2 SGM456 R IMIN V CC R1 R2 ON OFF EN GND CHG PPR TO MCU Figure 2. Typical Application Circuit with the Indication Signals Interfacing to an MCU COMPONENT DESCRIPTION FOR FIGURE 1 PART DESCRIPTION C 1 C 2 R IREF R IMIN 1μF X5R ceramic cap 1μF X5R ceramic cap 24.3kΩ, 1%, for 5mA charge current 243kΩ, 1%, for 4mA EOC current R 1, R 2 3Ω, 5% D 1, D 2 LEDs for indication COMPONENT DESCRIPTION FOR FIGURE 2 PART DESCRIPTION C 1 C 2 R IREF R IMIN 1μF X5R ceramic cap 1μF X5R ceramic cap 24.3kΩ, 1%, for 5mA charge current 243kΩ, 1%, for 4mA EOC current R 1, R 2 1kΩ, 5% 11

Trickle CC CV 4.2V I REF Charge Voltage 74% I REF 2.55V 18% I REF Charge Current I MIN CHG CHG Indication Time OPERATION Figure 3. Typical Charge Profile The SGM456 charges a Li-ion battery using a CC/CV profile. The constant current I REF is set with the external resistor R IREF (see Figure 1) and the constant voltage is fixed at 4.2V. If the battery voltage is below a typical 2.55V trickle charge threshold, the SGM456 charges the battery with a trickle current of 18% of I REF until the battery voltage rises above the trickle charge threshold. Fast charge CC mode is maintained at the rate determined by programming I REF until the cell voltage rises to 4.2V. When the battery voltage reaches 4.2V, the charger enters a CV mode and regulates the battery voltage at 4.2V to fully charge the battery without the risk of over charge. Upon reaching an end-of-charge (EOC) current, the charger indicates the charge completion with the CHG pin, but the charger continues to output the 4.2V voltage. Figure 3 shows the typical charge waveforms after the power is on. The EOC current level I MIN is programmable with the external resistor R IMIN (see Figure 1). The CHG pin turns to low when the trickle charge starts and rises to high impedance at the EOC. After the EOC is reached, the charge current has to rise to typically 74% I REF for the CHG pin to turn on again, as shown in Figure 3. The current surge after EOC can be caused by a load connected to the battery. A thermal foldback function reduces the charge current anytime when the die temperature reaches typically 115. This function guarantees safe operation when the printed circuit board (PCB) is not capable of dissipating the heat generated by the linear charger. The SGM456 accepts an input voltage up to 26.5V but disables charging when the input voltage exceeds the OVP threshold, typically 6.8V for SGM456-6.8 and 1.5V for SGM456-1.5, to protect against unqualified or faulty AC adapters. PPR Indication The PPR pin is an open-drain output to indicate the presence of the AC adapter. Whenever the input voltage is higher than the POR threshold, the PPR pin turns on the internal open-drain MOSFET to indicate a logic low signal, independent on the EN pin input. When the internal open-drain FET is turned off, the PPR pin leaks less than 2µA current. When turned on, the PPR pin is able to sink at least 15mA current under all operating conditions. The PPR pin can be used to drive an LED (see Figure 1) or to interface with a micro- processor. 12

OPERATION Power Good Range The power good range is defined by the following three conditions: 1. V IN > V POR 2. V IN - V BAT > V OS 3. V IN < V OVP where the V OS is the offset voltage for the input and output voltage comparator, discussed shortly, and the V OVP is the over-voltage protection threshold given in the Electrical Characteristics table. All V POR, V OS, and V OVP have hysteresis, as given in the Electrical Characteristics table. The charger will not charge the battery if the input voltage is not in the power good range. Input and Output Comparator The charger will not be enabled unless the input voltage is higher than the battery voltage by an offset voltage V OS. The purpose of this comparator is to ensure that the charger is turned off when the input power is removed from the charger. Without this comparator, it is possible that the charger will fail to power down when the input is removed and the current can leak through the PFET pass element to continue biasing the POR and the Pre-Regulator blocks. Dropout Voltage The constant current may not be maintained due to the R DS (ON) limit at a low input voltage. The worst case R DS (ON) is at the maximum allowable operating temperature. CHG Indication The CHG is an open-drain output capable of sinking at least 15mA current when the charger starts to charge, and turns off when the EOC current is reached. The CHG signal is interfaced either with a microprocessor GPIO or an LED for indication. EN Input EN is an active-low logic input to enable the charger. Drive the EN pin to low or leave it floating to enable the charger. This pin has a 2kΩ internal pull-down resistor so when left floating, the input is equivalent to logic low. Drive this pin to high to disable the charger. The threshold for high is given in the Electrical Characteristics table. IREF Pin The IREF pin has the two functions as described in the Pin Description section. When setting the fast charge current, the charge current is guaranteed to have 12% accuracy with the charge current set at 5mA. When monitoring the charge current, the accuracy of the IREF pin voltage vs. the actual charge current has the same accuracy as the gain from the IREF pin current to the actual charge current. Operation without the Battery The SGM456 relies on a battery for stability and works under LDO mode if the battery is not connected. With a battery, the charger will be stable with an output ceramic decoupling capacitor in the range of 1µF to 2µF. In LDO mode, its stability depends on load current, C OUT, etc. The maximum load current is limited by the dropout voltage, the programmed I REF and the thermal foldback. Thermal Foldback The thermal foldback function starts to reduce the charge current when the internal temperature reaches a typical value of 115. 13

APPLICATION INFORMATION Input Capacitor Selection The input capacitor is required to suppress the power supply transient response during transitions. Mainly this capacitor is selected to avoid oscillation during the start up when the input supply is passing the POR threshold and the VIN-BAT comparator offset voltage. When the battery voltage is above the POR threshold, the V IN - V BAT offset voltage dominates the hysteresis value. Typically, a 1µF X5R ceramic capacitor should be sufficient to suppress the power supply noise. Output Capacitor Selection The criterion for selecting the output capacitor is to maintain the stability of the charger as well as to bypass any transient load current. The minimum capacitance is a 1µF X5R ceramic capacitor. The actual capacitance connected to the output is dependent on the actual application requirement. Layout Guidance The SGM456 uses thermally-enhanced TDFN and SOIC packages that have an exposed thermal pad at the bottom side of the packages. The layout should connect as much as possible to copper on the exposed pad. Typically the component layer is more effective in dissipating heat. The thermal impedance can be further reduced by using other layers of copper connecting to the exposed pad through a thermal via array. Each thermal via is recommended to have.3mm diameter and 1mm distance from other thermal vias. Input Power Sources The input power source is typically a well-regulated wall cube with 1-meter length wire or a USB port. The SGM456 can withstand up to 26.5V on the input without damaging the IC. If the input voltage is higher than typically 6.8V (SGM456-6.8) or 1.5V (SGM456-1.5), the charger stops charging. 14

PACKAGE OUTLINE DIMENSIONS TDFN-3 3-8L D e N8 k D1 E E1 L N4 b N1 TOP VIEW BOTTOM VIEW 2.3 A 1.5 2.725 A1 A2.675 SIDE VIEW.24.65 RECOMMENDED LAND PATTERN (Unit: mm) Dimensions In Millimeters Dimensions In Inches Symbol MIN MAX MIN MAX A.7.8.28.31 A1..5..2 A2.23 REF.8 REF D 2.9 3.1.114.122 D1 2.2 2.4.87.94 E 2.9 3.1.114.122 E1 1.4 1.6.55.63 k.2 MIN.8 MIN b.18.3.7.12 e.65 TYP.26 TYP L.375.575.15.23 15

PACKAGE OUTLINE DIMENSIONS TDFN-2 3-8L D N5 e N8 k L E E1 D1 N4 b N1 TOP VIEW BOTTOM VIEW 1.5.6 A 1.5 3. SIDE VIEW A1 A2.25.5 RECOMMENDED LAND PATTERN (Unit: mm) Dimensions In Millimeters Dimensions In Inches Symbol MIN MAX MIN MAX A.7.8.28.31 A1..5..2 A2.23 REF.8 REF D 1.924 2.76.76.82 D1 1.4 1.6.55.63 E 2.924 3.76.115.121 E1 1.4 1.6.55.63 k.2 MIN.8 MIN b.2.3.8.12 e.5 TYP.2 TYP L.224.376.9.15 16

PACKAGE OUTLINE DIMENSIONS TDFN-2 2-8L D e N8 E L D1 E1 TOP VIEW k N4 N1 b BOTTOM VIEW 1.2.65 A.6 1.95 A1 A2 SIDE VIEW.24.5 RECOMMENDED LAND PATTERN (Unit: mm) Dimensions In Millimeters Dimensions In Inches Symbol MIN MAX MIN MAX A.7.8.28.31 A1..5..2 A2.23 REF.8 REF D 1.9 2.1.75.83 D1 1.1 1.3.43.51 E 1.9 2.1.75.83 E1.5.7.2.28 k.2 MIN.8 MIN b.18.3.7.12 e.5 TYP.2 TYP L.25.45.1.18 17

PACKAGE OUTLINE DIMENSIONS SOIC-8 (Exposed Pad) D e 3.32 E1 E E2 2.413 5.56 b 1.91 D1 1.27.61 RECOMMENDED LAND PATTERN (Unit: mm) L A A1 θ c A2 Symbol Dimensions In Millimeters Dimensions In Inches MIN MAX MIN MAX A 1.7.67 A1..1..4 A2 1.35 1.55.53.61 b.33.51.13.2 c.17.25.7.1 D 4.7 5.1.185.21 D1 3.22 3.42.126.134 E 3.8 4..15.157 E1 5.8 6.2.228.244 E2 2.313 2.513.91.99 e 1.27 BSC.5 BSC L.4 1.27.16.5 θ 8 8 18

TAPE AND REEL INFORMATION REEL DIMENSIONS TAPE DIMENSIONS P2 P W Q1 Q2 Q1 Q2 Q1 Q2 B Q3 Q4 Q3 Q4 Q3 Q4 Reel Diameter P1 A K Reel Width (W1) DIRECTION OF FEED NOTE: The picture is only for reference. Please make the object as the standard. KEY PARAMETER LIST OF TAPE AND REEL Package Type Reel Diameter Reel Width W1 A B K P P1 P2 W Pin1 Quadrant TDFN-2 2-8L 7 9.5 2.3 2.3 1.1 4. 4. 2. 8. Q1 TDFN-2 3-8L 7 9.5 2.3 3.3 1.1 4. 4. 2. 8. Q2 TDFN-3 3-8L 13 12.4 3.35 3.35 1.13 4. 8. 2. 12. Q1 SOIC-8 (Exposed Pad) 13 12.4 6.4 5.4 2.1 4. 8. 2. 12. Q1 19

CARTON BOX DIMENSIONS NOTE: The picture is only for reference. Please make the object as the standard. KEY PARAMETER LIST OF CARTON BOX Reel Type Length Width Height Pizza/Carton 7 (Option) 368 227 224 8 7 442 41 224 18 13 386 28 37 5 2