12V, Synchronous-Rectified Buck Converter Wide Input Voltage from
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APW7145
12V, Synchronous-Rectified Buck Converter
Wide Input Voltage from 4.3V Output Current Adjustable Output Voltage from 0.8V System Accuracy Integrated Power MOSFETs High Efficiency Automatic Skip/PWM Mode Operation Current-Mode Operation Easy Feedback Compensation Stable with Output Capacitors Fast Load/Line Transient Response
General Description
APW7145 synchronous-rectified Buck converter with integrated power MOSFETs. APW7145, designed with current-mode control scheme, convert wide input voltage 4.3V output voltage adjustable from 0.8V provide excellent output voltage regulation. high efficiency over load current range, APW7145 equipped with automatic Skip/PWM mode operation. light load, operates Skip mode, which keeps constant minimum inductor peak current, reduce switching losses. heavy load, works mode, which inductor peak current programmed COMP voltage, provide high efficiency excellent output voltage regulation. APW7145 also equipped with power-on-reset, softstart, soft-stop, whole protections (under-voltage, over-voltage, over-temperature, current-limit) into single package. shutdown mode, supply current drops below 3µA. This device, available SOP-8P DFN4x4-8 packages, provides very compact system solution with minimal external components area.
Power-On-Reset Monitoring Fixed 500kHz Switching Frequency Mode Built-in Digital Soft-Start Soft-Stop Current-Limit Protection with Frequency Foldback 118% Over-Voltage Protection Hiccup-Mode Under-Voltage Protection Over-Temperature Protection <3µA Quiescent Current Shutdown Mode SOP-8P Compact 4mmx4mm DFN-8 (DFN4x4-8) Packages Lead Free Green Devices Available (RoHS Compliant)
0.001
VIN=12V, VOUT=2V, L1=3.3µF
Applications
OLPC, UMPC Notebook Computer Handheld Portable Device Step-Down Converters Requiring High Efficiency Output Current
VIN=5V, VOUT=3.3V, L1=2.2µF VIN=12V, VOUT=5V, L1=6.8µF VIN=12V, VOUT=3.3V, L1=4.7µF VIN=5V, VOUT=1.2V, L1=2.2µF
0.01
ANPEC reserves right make changes improve reliability manufacturability without notice, advise customers obtain latest version relevant information verify before placing orders. Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008 www.anpec.com.tw
APW7145
Configuration
APW7145 AGND PGND COMP
AGND APW7145 PGND COMP
SOP-8P View
4x4-8 View
must connected Exposed
Ordering Marking Information
APW7145 Assembly Material Handling Code Temperature Range Package Code Package Code SOP-8P DFN4x4-8 Operating Ambient Temperature Range Handling Code Tape Reel Assembly Material Lead Free Device Halogen Lead Free Device XXXXX Date Code
APW7145
APW7145 XXXXX
APW7145
APW7145 XXXXX
XXXXX Date Code
Note ANPEC lead-free products contain molding compounds/die attach materials 100% matte plate termination finish; which fully compliant with RoHS. ANPEC lead-free products meet exceed lead-free requirements IPC/JEDEC J-STD020C classification lead-free peak reflow temperature. ANPEC defines "Green" mean lead-free (RoHS compliant) halogen free does exceed 900ppm weight homogeneous material total does exceed 1500ppm weight).
Absolute Maximum Ratings
Symbol Supply Voltage (VIN AGND) Voltage PGND AGND Voltage AGND Voltage COMP AGND Voltage TSTG Power Dissipation Maximum Junction Temperature Storage Temperature
(Note
Rating -0.3 100ns 100ns VIN+1 VIN+5 -0.3 +0.3 -0.3 VIN+0.3 -0.3 Internally Limited Unit
Parameter
TSDR Maximum Lead Soldering Temperature, Seconds Note Stresses above those listed bsolute Maximum Ratings cause permanent damage device.
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Thermal Characteristics
Symbol Junction-to-Case Resistance Free (Note SOP-8P DFN4x4-8
Parameter Junction-to-Ambient Thermal Resistance Free (Note SOP-8P DFN4x4-8
Typical Value
Unit
Note measured with component mounted high effective thermal conductivity test board free air. Note case temperature measured center exposed underside SOP-8P DFN4x4-8 packages.
Recommended Operating Conditions (Note
Symbol VOUT IOUT COUT LOUT Supply Voltage Converter Output Voltage Converter Output Current Converter Input Capacitor (MLCC) Converter Output Capacitor Effective Series Resistance Converter Output Inductor Resistance Feedback Resistor connected from Ambient Temperature Junction Temperature Parameter Range 1000 Unit
Note Refer Typical Application Circuits
Electrical Characteristics
Refer "Typical Application Circuits". These specifications apply over VIN=12V, VOUT=3.3V 85°C, unless otherwise specified. Typical values TA=25°C. Symbol SUPPLY CURRENT IVIN IVIN_SD Supply Current Shutdown Supply Current VREF +50mV, VEN=3V, LX=NC rising Parameter Test Conditions Min. APW7145 Typ. Max. Unit
POWER-ON-RESET (POR) VOLTAGE THRESHOLD Voltage Threshold Hysteresis REFERENCE VOLTAGE VREF Reference Voltage Output Voltage Accuracy Line Regulation Load Regulation Regulated 25oC, IOUT=10mA, VIN=12V IOUT=10mA~3A, VIN=4.75~14V 4.75V IOUT 0.5A -1.0 -2.0 +0.02 -0.04 +1.0 +2.0
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Electrical Characteristics (Cont.)
Refer "Typical Application Circuits". These specifications apply over VIN=12V, VOUT=3.3V 85°C, unless otherwise specified. Typical values TA=25°C. Symbol Parameter Test Conditions Min. OSCILLATOR DUTY CYCLE FOSC Oscillator Frequency Foldback Frequency Maximum Converter' Duty TON_MIN Minimum Pulse Width 125oC, 4.75 VOUT µA/V APW7145 Typ. Max. Unit
CURRENT-MODE CONVERTER Error Amplifier Transconductance Error Amplifier Gain Current-Sense COMP Voltage Transresistance Between Exposed Pad, TJ=25°C Between Exposed Pad, 12V, TJ=25°C Between Exposed Pad, TJ=25°C Between Exposed Pad, 12V, TJ=25°C Peak Current falling rising VFB=VREF±50mV COMP
High-Side Switch Resistance
Low-Side Switch Resistance
PROTECTIONS ILIM VTH_UV VTH_OV High-Side Switch Current-limit Under-Voltage Threshold Over-Voltage Threshold Under-Voltage Debounce TOTP Over-Temperature Trip Point Over-Temperature Hysteresis Dead-Time -0.7V
SOFT-START, SOFT-STOP, ENABLE, INPUT CURRENTS Soft-Start Soft-Stop Interval Shutdown Voltage Threshold Enable Voltage Threshold High-side Switch Leakage Current Input Current Input Current falling -100 -100 +100 +100
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Typical Operating Characteristics
(Refer application circuit section "Typical Application Circuits", VIN=12V, VOUT=3.3V, L1=4.7µH) Output Current Efficiency
Output Voltage, VOUT Efficiency
3.38 3.36 3.34 3.32 3.28 3.26 3.24
VIN=12V, VOUT=2V, L1=3.3µF
Output Current Output Voltage
0.001
VIN=5V, VOUT=3.3V, L1=2.2µF VIN=12V, VOUT=5V, L1=6.8µF VIN=12V, VOUT=3.3V, L1=4.7µF VIN=5V, VOUT=1.2V, L1=2.2µF
3.22
0.01
Output Current, IOUT(A)
Output Current, IOUT(A)
Current Limit Level (Peak Current)
Output Voltage Supply Voltage
3.38
Junction Temperature
Current Limit Level, ILIM(A)
IOUT=500mA
Output Voltage, VOUT
3.36 3.34 3.32 3.28 3.26 3.24 3.22
Junction Temperature, (oC)
Supply Voltage,
Input Current Supply Voltage
Reference Voltage Junction Temperature
0.816 0.812
VFB=0.85V
Input Current, IVIN(mA)
Reference Voltage, VREF
0.808 0.804 0.800 0.796 0.792 0.788 0.784
Supply Voltage, Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
Junction Temperature, www.anpec.com.tw
APW7145
Typical Operating Characteristics (Cont.)
(Refer application circuit section "Typical Application Circuits", VIN=12V, VOUT=3.3V, L1=4.7µH) Oscillator Frequency Junction Temperature
Oscillator Frequency, FOSC(KHz)
Junction Temperature,
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Operating Waveforms
(Refer application circuit section "Typical Application Circuits", VIN=12V, VOUT=3.3V, L1=4.7µH)
Power
Power
IOUT=3A
IOUT=3A VOUT 5V/div VOUT 2V/div 2A/div Time 1ms/div
VOUT
5V/div VOUT 2V/div 2A/div Time 10ms/div
Enable
IOUT=3A
IOUT=3A
Shutdown
VOUT
VOUT
5V/div VOUT 2V/div 2A/div Time 1ms/div
5V/div VOUT 2V/div IL1, 2A/div Time 100µs/div
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Operating Waveforms (Cont.)
(Refer application circuit section "Typical Application Circuits", VIN=12V, VOUT=3.3V, L1=4.7µH) Short Current
IOUT =3~7A
Short Circuit
VOUT shorted short wire
VOUT
VOUT
10V/div VOUT 2V/div 5A/div Time 20µs/div
5V/div VOUT 200mV/div 5A/div Time 5ms/div
Load Transient Response
IOUT= 50mA-> ->50mA IOUT rising/falling time=10µs VOUT
Load Transient Response
IOUT= 0.5A-> ->0.5A IOUT rising/falling time=10µs VOUT
VOUT 200mV/div 2A/div Time 100µs/div
VOUT 100mV/div 2A/div Time 100µs/div
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Operating Waveforms (Cont.)
(Refer application circuit section "Typical Application Circuits", VIN=12V, VOUT=3.3V, L1=4.7µH) Switching Waveform
IOUT=0.2A
Switching Waveform
IOUT=3A
5V/div 2A/div Time 1µs/div
5V/div 2A/div Time 1µs/div
Line Transient
VIN= 5~12V rising/falling time=20µs
Over Voltage Protection
VOUT
VOUT
IOUT=-1A
5V/div VOUT 50mV/div (Voffset=3.3V) 2A/div Time 100µs/div
5V/div VOUT 2V/div 5V/div 5A/div Time 20µs/div
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Description
NAME AGND Connection. Power Input. supplies power (4.3V 14V) control circuitry, gate drivers step-down converter switches. Connecting ceramic bypass capacitor suitably large capacitor between both AGND PGND eliminate switching noise voltage ripple input Ground MOSFET Gate Drivers Control Circuitry. Output Feedback Input. APW7145 senses feedback voltage regulates voltage 0.8V. Connecting with resistor-divider from converter' output sets output voltage from 0.8V VIN. Output error amplifier. Connecting series network from COMP compensate regulation control loop. some cases, additional capacitor from COMP required. Enable Input. digital input that turns regulator off. Drive high turn regulator, drive turn off. Connecting this used. Power Switching Output. junction high-side low-side power MOSFETs supply power output filter. Power Ground APW7145, which source N-channel power MOSFET. Connect this system ground with lowest impedance. Power Switching Output. Drain P-channel MOSFET supply power output. Exposed provides current with lower impedance than Connecting output filter top-layer thermal PCBs. will heat sink FUNCTION
(Exposed Pad)
COMP PGND
Block Diagram
Current Sense Amplifier Power-OnReset Current Limit Zero-Crossing Comparator
118%VREF 50%VREF Soft-Start Soft-Stop
Soft-Start Soft-Stop Fault Logic Inhibit Gate Control Current Compartor Slope Compensation Gate Driver Gate Driver
VREF
Error Amplifier
COMP
PGND
1.5V
Enable
OverTemperature Protection
Oscillator 500kHz
AGND
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APW7145
Typical Application Circuit
4.3~14V Single Power Input Step-down Converter (with Ceramic Output Capacitor)
Enable Shutdown
VOUT
APW7145
PGND COMP AGND
30%)
30%, Optional)
Cost-effective Feedback Compensation connection)
IN(V) OUT(V) L1(µF) C2(µF) ESR(m) R1(k) R2(k) R3(k) C3(pF)
63.0 63.0 46.9 46.9 30.0 30.0 18.8 18.8 46.9 46.9 25.0 25.0 21.9 21.9
33.0 68.0 27.0 56.0 18.0 33.0 15.0 30.0 27.0 56.0 15.0 30.0 12.0 24.0 10.0 20.0
1000 1000 1800 1800 1800 1800 1000 1000 1200 1200
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Typical Application Circuit (Cont.)
Fast-Transient-Response Feedback Compensation connected) VIN(V) VOUT(V) L1(µH) C2(µF) ESR(m) R1(k) 63.0 63.0 46.9 46.9 30.0 30.0 18.8 18.8 46.9 46.9 25.0 25.0 R2(k) R3(k) C3(pF) 680.0 680.0 1000.0 1000.0 1800.0 1800.0 1800.0 1800.0 470.0 470.0 820.0 820.0 1000 1000 1200 1200 C4(pF)
+12V Single Power Input Step-down Converter (with Electrolytic Output Capacitor)
Enable Shutdown
2.2µF
470µF
4.7µH
APW7145
PGND COMP AGND
VOUT 3.3V/3A
470µF (ESR=30m)
100K 1000pF
46.9K
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Function Description
Power-On-Reset (POR) APW7145 keeps monitoring voltage prevent wrong logic operations which occur when voltage high enough internal control circuitry operate. rising threshold 4.1V (typical) with 0.5V hysteresis. During start-up, voltage must exceed enable voltage threshold. Then, starts start-up process ramps output voltage voltage target. Digital Soft-Start APW7145 built-in digital soft-start control rise rate output voltage limit input current surge during start-up. During soft-start, internal voltage ramp (VRAMP), connected positive inputs error amplifier, rises from 0.95V replace reference voltage (0.8V) until voltage ramp reaches reference voltage. During soft-start without output overvoltage, APW7145 converter' sinking capability disabled until output voltage reaches voltage target. Digital Soft-Stop moment shutdown controlled signal, undervoltage event, over-temperature protection, APW7145 initiates digital soft-stop process discharge output voltage output capacitors. Certainly, load current also discharges output voltage. During soft-stop, internal voltage ramp (VRAMP) falls down from 0.95V replace reference voltage. Therefore, output voltage falls down slowly light load. After soft-stop interval elapses, soft-stop process ends turns low-side power MOSFET. Output Undervoltage Protection (UVP) operational process, short-circuit occurs, output voltage will drop quickly. Before current-limit circuit responds, output voltage will fall required regulation range. undervoltage continually monitors voltage after soft-start completed. load step strong enough pull output voltage lower than under-voltage threshold, shuts down converter' output. under-voltage threshold nominal output voltage. undervoltage comparator built-in noise filter prevent chips from wrong shutdown caused noise. under-voltage protection works hiccup mode without latched shutdown. will initiate soft-start process preceding delay. Over-Voltage Protection (OVP) over-voltage function monitors output voltage pin. When voltage increase over 118% reference voltage high-side MOSFET failure, other reasons, over-voltage protection comparator will force low-side MOSFET gate driver high. This action actively pulls down output voltage eventually attempts blow internal bonding wires. soon output voltage within regulation, comparator disengaged. chip will restore normal operation. This scheme only clamps voltage overshoot does invert output voltage when otherwise activated with continuously high output from lowside MOSFET driver common problem schemes with latch. Over-Temperature Protection (OTP) over-temperature circuit limits junction temperature APW7145. When junction temperature exceeds +150oC, thermal sensor turns both power MOSFETs, allowing devices cool. thermal sensor allows converters start start-up process regulate output voltage again after junction temperature cools designed with hysteresis lower average during continuous thermal overload conditions, increasing lifetime APW7145. Enable/Shutdown Driving ground initiates soft-stop process then places APW7145 shutdown. When shutdown, after soft-stop process completed, internal power MOSFETs turns off, internal circuitry shuts down quiescent supply current reduces less than 3mA.
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Function Description (Cont.)
Current-Limit Protection APW7145 monitors output current, flowing through high-side power MOSFET, limits current peak current-limit level prevent loads from damages during overload short-circuit conditions. Frequency Foldback foldback frequency controlled voltage. When output shortened ground, frequency oscillator will reduced 80kHz. This lower frequency allows inductor current safely discharge, thereby preventing current runaway. oscillator' fres quency will gradually increase designed rate when feedback voltage again approaches 0.8V.
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Application Information
Setting Output Voltage regulated output voltage determined
VOUT
T=1/FOSC
IOUT
Suggested range from 20k. portable applications, resistor suggested prevent stray pickup, please locate resistors close APW7145. Input Capacitor Selection small ceramic capacitors high frequency decoupling bulk capacitors supply surge current needed each time P-channel power MOSFET (Q1) turns Place small ceramic capacitors physically close between GND. important parameters bulk input capacitor voltage rating current rating. reliable operation, select bulk capacitor with voltage current ratings above maximum input voltage largest current required circuit. capacitor voltage rating should least 1.25 times greater than maximum input voltage voltage rating times conservative guideline. current (IRMS) bulk input capacitor calculated following equation:
IOUT ICOUT
VOUT
VOUT
Figure Converter Waveforms
Output Capacitor Selection output capacitor required filter output supply load transient current. filtering requirements function switching frequency ripple current (I). output ripple voltages, having phase shift, across ESR, ideal output capacitor. peak-to-peak voltage calculated following equations:
VOUT VOUT FOSC
IRMS IOUT
where duty cycle power MOSFET. through hole design, several electrolytic capacitors needed. surface mount designs, solid tantalum capacitors used, caution must exercised with regard capacitor surge current rating.
VESR
peak-to-peak voltage ideal output capacitor calculated following equation:
VCOUT FOSC COUT
applications using bulk capacitors, COUT much smaller than ignored. Therefore, peak-to-peak output voltage (VOUT
VOUT
IOUT COUT
shown below:
VOUT
ICOUT
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Application Information (Cont.)
Output Capacitor Selection (Cont.) applications using ceramic capacitors, VESR much smaller than COUT ignored. Therefore, peak-to-peak output voltage (VOUT close VCOUT load transient requirements function slew rate (di/dt) anddisengaged\the magnitude transient load current. These requirements generally with capacitors careful layout. High frequency capacitors initially supply transient slow current load rate seen bulk capacitors. bulk filter capacitor values generally determined (Effective Series Resistance) voltage rating requirements rather than actual capacitance requirements. High frequency decoupling capacitors should placed close power pins load physically possible. careful inductance circuit board wiring that could cancel usefulness these inductance components. aluminum electrolytic capacitor' value related case size with lower available larger case sizes. However, Equivalent Series Inductance (ESL) these capacitors increases with case size reduce usefulness capacitor high slew-rate transient loading. Inductor Value Calculation operating frequency inductor selection interrelated that higher operating frequencies permit smaller inductor same amount inductor ripple current. However, this expense efficiency increase MOSFET gate charge losses. equation shows that inductance value direct effect ripple current. Accepting larger values ripple current allows inductances, results higher output voltage ripple greater core losses. reasonable starting point setting ripple current IOUT(MAX) Please noticed that maximum ripple current occurs maximum input voltage. minimum inductance inductor calculated using following equation:
Compensation Network
VOUT VOUT 500000 VOUT VOUT 600000
where VIN(MAX)
Layout Consideration high power switching regulator, correct layout important ensure proper operation regulator. general, interconnecting impedance should minimized using short wide printed circuit traces. Signal power grounds kept separating finally bined using ground plane construction single point grounding. Figure illustrates layout, with bold lines indicating high current paths. Components along bold lines should placed close together. Below checklist your layout: Firstly, initial layout placing power components. Orient power circuitry achieve clean power flow path. possible, make connections side with wide copper filled areas.
Load VOUT
APW7145 COMP
PGND
AGND
C4(Optional)
Feedback Divider
Figure Current Path Diagram
Figure loops with same color bold lines conduct high slew rate current. These interconnecting impedances should minimized using wide short printed circuit traces.
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Application Information (Cont.)
Layout Consideration (Cont.) Keep sensitive small signal nodes COMP) away from switching nodes others) PCB. Therefore, place feedback divider feedback compensation network close avoid switching noise. Connect ground feedback divider directly AGND using dedicated ground trace. Place decoupling ceramic capacitor near close possible. wide power ground plane connect provide impedance path between components large high slew rate current.
Ground
VOUT
APW7145 SOP-8P
dissipating heat
APW7145 DFN4x4
dissipating heat
Figure Recommended Layout Diagram
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
Ground
Ground
VOUT
Ground
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APW7145
Package Information
SOP-8P
VIEW THERMAL
0.25 GAUGE PLANE SEATING PLANE VIEW
SOP-8P MILLIMETERS MIN. MAX. 1.60 0.00 1.25 0.31 0.17 4.80 2.25 5.80 3.80 2.00 1.27 0.25 0.40 0.50 1.27 0.010 0.016 0.51 0.25 5.00 3.50 6.20 4.00 3.00 0.15 0.000 0.049 0.012 0.007 0.189 0.098 0.228 0.150 0.079 0.050 0.020 0.050 0.020 0.010 0.197 0.138 0.244 0.157 0.118 MIN. INCHES MAX. 0.063 0.006
Note Follow JEDEC MS-012 Dimension does include mold flash, protrusions gate burrs. Mold flash, protrusion gate burrs shall exceed side Dimension does include inter-lead flash protrusions. Inter-lead flash protrusions shall exceed side.
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Package Information
DFN4x4-8
0.40 0.20 0.25 3.90 3.10 3.90 2.40 0.80 0.60 DFN4x4-8 MILLIMETERS MIN. 0.80 0.00 0.20 0.35 4.10 3.30 4.10 2.60 MAX. 1.00 0.05 MIN. 0.031 0.000 0.008 0.010 0.154 0.122 0.154 0.094 0.014 0.161 0.130 0.161 0.102 INCHES MAX. 0.039 0.002
Corner
0.031 0.016 0.008 0.024
Note Followed from JEDEC MO-229 VGGB.
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Carrier Tape Reel Dimensions
SECTION SECTION
Application
330.0± 2.00
MIN. 8.0± 0.10 MIN. 8.0± 0.10
12.4+2.00 -0.00 2.0± 0.05 12.4+2.00 -0.00 2.0± 0.05
13.0+0.50 -0.20 1.5+0.10 -0.00 13.0+0.50 -0.20 1.5+0.10 -0.00
MIN. MIN. MIN. MIN.
20.2 MIN. 0.6+0.00 -0.40 20.2 MIN. 0.6+0.00 -0.40
12.0± 0.30 6.40± 0.20 12.0± 0.30 4.30± 0.20
1.75± 0.10 5.20± 0.20 1.75± 0.10 4.30± 0.20
5.5± 0.05 2.10± 0.20 5.5± 0.05 1.30± 0.20
SOP-8(P)
4.0± 0.10
Application
330.0± 2.00
DFN4x4-8
4.0± 0.10
Devices Unit
Package Type SOP-8P DFN4x4-8 Unit Tape Reel Tape Reel Quantity 2500 3000
(mm)
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Taping Direction Information
SOP-8P
USER DIRECTION FEED
DFN4x4-8
USER DIRECTION FEED
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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APW7145
Reflow Condition
Ramp-up Tsmax
(IR/Convection Reflow)
Critical Zone
Temperature
Tsmin Ramp-down Preheat
25°C Peak
Time
Reliability Test Program
Test item SOLDERABILITY HOLT Latch-Up Method MIL-STD-883D-2003 MIL-STD-883D-1005.7 JESD-22-B, A102 MIL-STD-883D-1011.9 MIL-STD-883D-3015.7 JESD Description 245°C, 1000 Bias @125°C Hrs, 100%RH, 121°C -65°C~150°C, Cycles VHBM 2KV, 200V 10ms, 100mA
Classification Reflow Profiles
Profile Feature Average ramp-up rate Preheat Temperature (Tsmin) Temperature (Tsmax) Time (min max) (ts) Time maintained above: Temperature (TL) Time (tL) Peak/Classification Temperature (Tp) Time within actual Peak Temperature (tp) Ramp-down Rate Sn-Pb Eutectic Assembly 3°C/second max. 100°C 150°C 60-120 seconds 183°C 60-150 seconds table 10-30 seconds Pb-Free Assembly 3°C/second max. 150°C 200°C 60-180 seconds 217°C 60-150 seconds table 20-40 seconds
6°C/second max. 6°C/second max. minutes max. minutes max. Time 25°C Peak Temperature Notes: temperatures refer topside package. Measured body surface.
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APW7145
Classification Reflow Profiles (Cont.)
Table SnPb Eutectic Process Package Peak Reflow Temperatures Package Thickness Volume <350 <2.5 +0/-5°C +0/-5°C Volume +0/-5°C +0/-5°C
Table Pb-free Process Package Classification Reflow Temperatures Package Thickness Volume Volume Volume <350 350-2000 >2000 <1.6 +0°C* +0°C* +0°C* +0°C* +0°C* +0°C* +0°C* +0°C* +0°C* *Tolerance: device manufacturer/supplier shall assure process compatibility including stated classification temperature (this means Peak reflow temperature +0°C. example 260°C+0°C) rated level.
Customer Service
Anpec Electronics Corp. Head Office No.6, Dusing Road, SBIP, Hsin-Chu, Taiwan 886-3-5642000 886-3-5642050 Taipei Branch Lane 218, Jhongsing Rd., Sindian City, Taipei County 23146, Taiwan 886-2-2910-3838 886-2-2917-3838
Copyright ANPEC Electronics Corp. Rev. A.3- Sep., 2008
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