Anpec APL3206ACTI-TRG Li charger protection ic with integrated p-mosfet Datasheet

APL3206/A/B
Li+ Charger Protection IC with Integrated P-MOSFET
Features
General Description
•
Input Over-Voltage Protection
•
Input Over-Current Protection
The APL3206/A/B provides complete Li+ charger protection against input over-voltage, input over-current, and
•
Battery Over-Voltage Protection
•
High Immunity of False Triggering
•
High Accuracy Protection Threshold
•
A Built-In P-MOSFET
•
Thermal Shutdown Protection
•
Compliance to IEC61000-4-2 (Level 4)
•
battery over-voltage. When any of the monitored parameters are over the threshold, the IC removes the power
from the charging system by turning off an internal switch.
All protections also have deglitch time against false triggering due to voltage spikes or current transients.
The APL3206/A/B integrates a P-MOSFET with the body
diode reverse protection to replace the external P-MOSFET
and Schottky diode for charger function of cell phone’s
± 8kV (Contact Discharge)
PMIC. When the CHRIN voltage drops below VBAT+20mV,
the internal power select circuit will reverse the body
± 15kV (Air Discharge)
diode’s terminal to prevent a reverse current flowing from
the battery back to CHRIN pin.
Available in a TDFN2x2-8 and TSOT-23-6A
The APL3206/A/B provides complete Li+ charger protections and saves the external MOSFET and Schottky diode
Packages
•
for the charger of cell phone’s PMIC. The above features
and small package make the APL3206/A/B an ideal part
Lead Free and Green Devices Available
(RoHS Compliant)
for cell phones applications.
Applications
•
Pin Configuration
Cell Phones
ACIN 1
8 OUT
ACIN 2
Simplified Application Circuit
GND 3
7 OUT
EP
VBAT 4
TDFN2x2-8
(Top View)
5V Adapter or USB
ACIN
CHRIN
CHRIN
APL3206/A/B
EP
PMIC
GATDRV
= Exposed Pad (connected to ground
plane for better heat dissipation)
GATDRV
ISENS
OUT
6 VIN
OUT 1
GND
6 CHRIN
5 GATDRV
VBAT
VBAT
CHRIN 2
Li+
Battery
5 GND
GATDRV 3
4 VBAT
TSOT-23-6A
(Top View)
ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and
advise customers to obtain the latest version of relevant information to verify before placing orders.
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
1
www.anpec.com.tw
APL3206/A/B
Ordering and Marking Information
APL3206
APL3206A
APL3206B
Package Code
QB : TDFN2x2-8 CT : TSOT-23-6A
Operating Ambient Temperature Range
I : -40 to 85 oC
Handling Code
TR : Tape & Reel
Assembly Material
G : Halogen and Lead Free Device
Assembly Material
Handling Code
Temperature Range
Package Code
APL3206 QB:
L06
X
X - Date Code
APL3206A QB:
L6A
X
X - Date Code
APL3206B QB:
L6B
X
X - Date Code
APL3206 CT:
L06X
X - Date Code
APL3206A CT:
L6AX
X - Date Code
APL3206B CT:
L6BX
X - Date Code
Note: ANPEC lead-free products contain molding compounds/die attach materials and 100% matte tin plate termination finish; which
are fully compliant with RoHS. ANPEC lead-free products meet or exceed the lead-free requirements of IPC/JEDEC J-STD-020D for
MSL classification at lead-free peak reflow temperature. ANPEC defines “Green” to mean lead-free (RoHS compliant) and halogen
free (Br or Cl does not exceed 900ppm by weight in homogeneous material and total of Br and Cl does not exceed 1500ppm by
weight).
Absolute Maximum Ratings (Note 1)
Symbol
Parameter
Rating
Unit
VACIN
ACIN Input Voltage (ACIN to GND)
-0.3 ~ 30
V
VCHRIN
CHRIN to GND Voltage
-0.3 ~ 7
V
VGATDRV
GATDRV to GND Voltage
-0.3 ~ VCHRIN
V
VBAT
VBAT to GND Voltage
-0.3 ~ 7
V
VOUT
OUT to GND Voltage
-0.3 ~ 7
V
IOUT
TJ
OUT Output Current
1.5
Maximum Junction Temperature
150
o
-65 ~ 150
o
260
o
TSTG
Storage Temperature
TSDR
Maximum Lead Soldering Temperature, 10 Seconds
A
C
C
C
Note 1: Absolute Maximum Ratings are those values beyond which the life of a device may be impaired. Exposure to absolute
maximum rating conditions for extended periods may affect device reliability.
Thermal Characteristic
Symbol
Parameter
Junction-to-Ambient Resistance in Free Air
Typical Value
Unit
(Note 2)
θJA
TDFN2x2-8
80
TSOT-23-6A
235
o
C/W
Note 2: θJA is measured with the component mounted on a high effective thermal conductivity test board in free air. The exposed pad
of TDFN2x2-8 is soldered directly on the PCB.
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
2
www.anpec.com.tw
APL3206/A/B
Recommended Operating Conditions (Note 3)
Symbol
Parameter
Range
Unit
VACIN
ACIN Input Voltage
4.5 ~ 5.5
V
IOUT
Output Current
0 ~ 700
mA
TA
Ambient Temperature
-40 ~ 85
o
-40 ~ 125
o
TJ
Junction Temperature
C
C
Note 3: Refer to the typical application circuit
Electrical Characteristics
Unless otherwise specified, these specifications apply over VACIN=5V, VBAT=3.8V and TA= -40 ~ 85 oC. Typical values are at TA=25oC.
Symbol
Parameter
APL3206/A/B
Test Conditions
Unit
Min.
Typ.
Max.
-
250
350
ACIN INPUT CURRENT AND POWER-ON-RESET (POR)
IACIN
VACIN
ACIN Supply Current
IOUT=0A, ICHRIN=0A
ACIN POR Threshold
VACIN rising
ACIN POR Hysteresis
TB(ACIN)
ACIN Power-On Blanking Time
µA
2.4
-
2.8
V
200
250
300
mV
-
8
-
ms
-
0.5
-
Ω
-
500
-
Ω
INTERNAL SWITCH ON RESISTANCE
ACIN to OUT On Resistance
IOUT=0.7A
CHRIN Discharge On Resistance
INPUT OVER-VOLTAGE PROTECTION (OVP)
APL3206
VOVP
Input OVP Threshold
VACIN rising
APL3206A
APL3206B
Input OVP Hysteresis
Input OVP Propagation Delay
TON(OVP) Input OVP Recovery Time
6
6.17
6.35
6.6
6.8
7
7.5
7.65
7.8
200
300
400
-
-
1
µs
-
8
-
ms
A
V
mV
OVER-CURRENT PROTECTION (OCP)
IOCP
TB(OCP)
OCP Threshold
1
-
1.55
OCP Blanking Time
-
176
-
µs
-
64
-
ms
4.32
4.35
4.38
V
220
270
320
mV
-
-
20
nA
-
176
-
µs
VCHRIN from low to high, P-MOSFET is controlled
by GATDRV
-
150
-
VCHRIN from high to low, P-MOSFET is off
-
20
-
OUT Input Current
VCHRIN=0V, VOUT=4.2V, GATDRV=GND
-
-
1
µA
GATDRV Leakage Current
VACIN=VCHRIN= VOUT=5V, VGATDRV=0V
-
-
1
µA
OUT Leakage Current
VACIN=VCHRIN= VGATDRV =5V, VOUT=0V
-
-
1
µA
TON(OCP) OCP Recovery Time
BATTERY OVER-VOLTAGE PROTECTION
VBOVP
Battery OVP Threshold
VBAT rising
Battery OVP Hysteresis
IVBAT
VBAT Pin Leakage Current
VBAT = 4.4V
TB(BOVP) Battery OVP Blanking Time
INTERNAL P-MOSFET (CHRIN, OUT, AND GATDRV PINS)
VCHRIN-VBAT Lockout Threshold
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
3
mV
www.anpec.com.tw
APL3206/A/B
Electrical Characteristics (Cont.)
Unless otherwise specified, these specifications apply over VACIN=5V, VBAT=3.8V and TA= -40 ~ 85 oC. Typical values are at TA=25oC.
Symbol
Parameter
APL3206/A/B
Test Conditions
Unit
Min.
Typ.
Max.
P-MOSFET Input Capacitance
-
200
-
pF
GATDRV Input Resistance
-
15
-
Ω
-
160
-
°C
-
40
-
°C
INTERNAL P-MOSFET (CHRIN, OUT, AND GATDRV PINS) (CONT.)
OVER-TEMPERATURE PROTECTION (OTP)
TOTP
Over-Temperature Threshold
TJ rising
Over-Temperature Hysteresis
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
4
www.anpec.com.tw
APL3206/A/B
Typical Operating Characteristics
OCP Threshold vs. Junction
Temperature
6.25
1.30
6.15
1.25
OCP Threshold, IOCP (A)
Input OVP Threshold, VOVP (V)
Input OVP Threshold vs. Junction
Temperature
VACIN Increasing
6.05
5.95
5.85
5.75
1.20
1.15
1.10
1.05
VACIN Decreasing
1.00
5.65
-50
-25
0
25
50
75
Junction Temperature
100
-50
125
ACIN to OUT On Resistance, RDS,ON (mΩ)
Battery OVP Threshold, VBOVP (V)
4.35
VBAT Increasing
4.25
4.20
4.15
4.10
VBAT Decreasing
4.00
-50
-25
0
25
50
75
100
50
75
100
125
1000
900
800
ACIN to OUT On Resistance
700
600
500
400
300
125
-50
-25
Junction Temperature ( oC)
0
25
50
75
Junction Temperature
100
125
( oC)
POR Threshold vs. Junction
Temperature
ACIN Supply Current vs.
Junction Temperature
350
2.8
VACIN Increasing
POR Threshold, VPOR (V)
ACIN Supply Current, IACIN (µA)
25
ACIN to OUT On Resistance vs.
Junction Temperature
4.40
4.05
0
Junction Temperature (oC)
Battery OVP Threshold vs.
Junction Temperature
4.30
-25
( oC)
300
250
200
2.7
2.6
2.5
2.4
VACIN Decreasing
2.3
150
2.2
-50
-25
0
25
50
75
Junction Temperature
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
100
-50
125
-25
0
25
50
75
Junction Temperature
(oC)
5
100
125
( oC)
www.anpec.com.tw
APL3206/A/B
Operating Waveforms
The test condition is VACIN=5V, VBAT=3.8V, CACIN=1µF, CCHRIN=1µF, TA= 25oC unless otherwise specified.
OVP at Power On
Normal Power On
VACIN
1
VACIN
VOUT
1
VCHRIN
2
VCHRIN
VOUT
2,3
IOUT
3
4
VACIN = 0 to 12V, VGATDRV = VCHRIN
CH1: VACIN, 10V/Div, DC
CH2: VCHRIN, 2V/Div, DC
CH3: VOUT, 2V/Div, DC
TIME: 2ms/Div
VGATDRV = VCHRIN
CH1: VACIN, 5V/Div, DC
CH2: VOUT, 2V/Div, DC
CH3: VCHRIN, 2V/Div, DC
CH4: IOUT, 0.2A/Div, DC
TIME: 2ms/Div
Input Over-Voltage Protection
Recovery from Input OVP
VACIN
VACIN
1
1
VCHRIN
VCHRIN
2
2
VACIN =5V to 12V
VACIN= 12V to 5V
CH1: VACIN, 5V/Div, AC
CH2: VCHRIN, 2V/Div, DC
TIME:20µs/Div
CH1: VACIN, 5V/Div, AC
CH2: VCHRIN, 2V/Div, DC
TIME: 2ms/Div
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
6
www.anpec.com.tw
APL3206/A/B
Operating Waveforms (Cont.)
The test condition is VACIN=5V, VBAT=3.8V, CACIN=1µF, CCHRIN=1µF, TA= 25oC unless otherwise specified.
Battery Over-Voltage Protection
Battery Over-Voltage Protection
VBAT
VBAT
1
1
VCHRIN
VCHRIN
2
2
VBAT = 3.6V to 4.4V
VBAT = 3.6V to 4.4V to 3.6V
CH1: VBAT, 2V/Div, DC
CH2: VCHRIN, 2V/Div, DC
TIME: 200µs/Div
CH1: VBAT, 2V/Div, AC
CH2: VCHRIN, 2V/Div, DC
TIME: 50ms/Div
Over-Current Protection
Over-Current Protection
VCHRIN
VACIN
VOUT
1
VCHRIN
1
2
2
VOUT
IOUT
IOUT
3
3
ROUT=2.5Ω, VBAT = 0V, VGATDRV=0V
ROUT=10Ω to 2.4Ω, VBAT = 0V, VGATDRV=0V
CH1: VACIN, 5V/Div, DC
CH2: VCHRIN, 5V/Div, DC
CH3: VOUT, 5V/Div, DC
CH4: IOUT, 1A/Div, DC
TIME: 200ms/Div
Note: OUT pin connected with a resistor to ground.
CH1: VCHRIN, 2V/Div, DC
CH2: VOUT, 2V/Div, DC
CH3: IOUT, 0.5A/Div, DC
TIME: 100µs/Div
Note: OUT pin connected with a resistor to ground.
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
7
www.anpec.com.tw
APL3206/A/B
Pin Description
PIN
FUNCTION
NO.
NAME
1,2
ACIN
Power Supply Input. Connect this pin to external DC supply. Bypass to GND with a 1µF (minimum)
ceramic capacitor.
3
GND
Ground Terminal.
4
VBAT
Battery Voltage Sense Input. Connect this pin to pack positive terminal through a resistor.
5
GATDRV
6
CHRIN
7,8
OUT
-
EP
Internal P-MOSFET Gate Input.
Output Pin. This pin provides supply voltage to the PMIC input. Bypass to GND with a 1µF (minimum)
ceramic capacitor.
Output Pins. These pins provide supply source current in series with a resistor to battery.
Exposed Thermal Pad. Must be electrically connected to the GND pin.
Block Diagram
ACIN
CHRIN
POR
OUT
Charge
Pump
ACIN
OVP
OCP
Gate Driver and
Control Logic
VBAT
OVP
0.5V
1V
GATDRV
GND
VBAT
Thermal
Shutdown
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
8
www.anpec.com.tw
APL3206/A/B
Typical Application Circuit
5V Adapter/USB
1, 2
CACIN
1µF
ACIN
CHRIN
6
CHRIN
CCHRIN
1µF
APL3206/A/B
GATDRV
PMIC
5
GATDRV
7, 8
ISENS
OUT
0.2Ω
3
GND
4
VBAT
VBAT
RBAT
200kΩ
Li+
Battery
Description
Designation
CACIN
1µF, 25V, X5R, 0603
Murata GRM188R61E105K
CCHRIN
1µF, 10V, X5R, 0603
Murata GRM188R61A105K
Murata website: www.murata.com
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
9
www.anpec.com.tw
APL3206/A/B
Function Description
ACIN Power-On-Reset (POR)
Over-Temperature Protection
The APL3206/A/B has a built-in power-on-reset circuit to
When the junction temperature exceeds 160oC, the internal thermal sense circuit turns off the power FET and
keep the output shutting off until internal circuitry is operating properly. The POR circuit has hysteresis and a de-
allows the device to cool down. When the device’s junction temperature cools by 40 oC, the internal thermal
glitch feature so that it will typically ignore undershoot
transients on the input. When the input voltage exceeds
sense circuit will enable the device, resulting in a pulsed
output during continuous thermal protection. Thermal pro-
the POR threshold and after 8ms blanking time, the output voltage starts a soft-start to reduce the inrush current.
tection is designed to protect the IC in the event of over
temperature conditions. For normal operation, the junc-
ACIN Over-Voltage Protection (OVP)
tion temperature cannot exceed TJ=+125oC.
The input voltage is monitored by the internal OVP circuit.
When the input voltage rises above the input OVP
Internal P-MOSFET
threshold, the internal FET will be turned off within 1ms to
protect connected system on OUT pin. When the input
The APL3206/A/B integrates a P-channel MOSFET with
the body diode reverse protection to replace the external
P-MOSFET and Schottky diode for cell phone’s PMIC. The
voltage returns below the input OVP threshold minus the
hysteresis, the FET is turned on again after 8ms recovery
body diode reverse protection prevents a reverse current
flowing from the battery back to CHRIN pin. During power-
time. The input OVP circuit has a 300mV hysteresis and
a recovery time of TON(OVP) to provide noise immunity against
transient conditions.
on, when CHRIN voltage rises above the VBAT voltage by
more than 150mV, the body diode of the P-channel
Over-Current Protection (OCP)
MOSFET is forward biased from OUT to CHRIN, and PMOSFET is controlled by the external GATDRV voltage.
The output current is monitored by the internal OCP circuit.
When the CHRIN voltage drops below VBAT+20mV, the
body diode of the P-channel MOSFET is forward biased
When the output current reaches the OCP threshold, the
device limits the output current at OCP threshold level. If
from CHRIN to OUT and P-channel MOSFET is turned
off. When any of input OVP, OCP, battery OVP, is detected,
the OCP condition continues for a blanking time of TB(OCP),
the internal power FET is turned off. After the recovery
the internal P-channel MOSFET is also turned off.
time of TON(OCP), the FET will be turned on again. The
APL3206/A/B has a built-in counter. When the total count
ESD Tests
of OCP fault reaches 16, the FET is turned off permanently,
requiring a VACIN POR again to restart.
The APL3206/A/B VIN input pin fully supports the
IEC61000-4-2. That means the VIN pin has immunity of
Battery Over-Voltage Protection
±15kV ESD discharge in Air condition, and immunity of
±8kV ESD discharge in Contact condition.
The APL3206/A/B monitors the VBAT pin voltage for battery over-voltage protection. The battery OVP threshold is
internally set to 4.35V. When the VBAT pin voltage exceeds the battery OVP threshold for a blanking time of TB
, the internal power FET is turned off. When the VBAT
(BOVP)
voltage returns below the battery OVP threshold minus
the hysteresis, the FET is turned on again. The APL3206/
A/B has a built-in counter. When the total count of battery
OVP fault reaches 16, the FET is turned off permanently,
requiring a VACIN POR again to restart.
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
10
www.anpec.com.tw
APL3206/A/B
Function Description (Cont.)
VOVP
VPOR
VACIN
VCHRIN -VBAT = 150mV
VCHRIN -VBAT = 150mV
VCHRIN
VOUT
GATDRV is pulled low
P-MOS Gate
Control
Controlled
by GATDRV
Turn Off Internal
P-MOSFET
Controlled by
GATDRV
Turn Off Internal P-MOSFET
TB(ACIN)
ACIN OVP
TON(OVP)
Figure 1. OVP Timing Diagram
IOCP
IOUT
GATDRV is pulled low
VCHRIN
P-MOS Gate
Control
Count 13
times
Controlled by
GATDRV
TB(OCP)
Turn Off Internal
P-MOSFET
Controlled by
GATDRV
TON(OCP)
Turn Off
Internal PMOSFET
TB(OCP)
Controlled
by
GATDRV
Turn Off
Internal PMOSFET
Total count 16
times, IC is
latched off
TB(OCP)
Figure 2. OCP Timing Diagram
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
11
www.anpec.com.tw
APL3206/A/B
Function Description (Cont.)
VBAT
VBOVP
VBOVP
VCHRIN -VOUT =
150mV
VCHRIN
Count 13
times
P-MOS Gate Controlled
Control
by GATDRV
Turn Off Internal
P-MOSFET
TB(BOVP)
Controlled by
GATDRV
Turn Off
Internal PMOSFET
TB(BOVP)
Controlled
by GATDRV
Turn Off Internal
P-MOSFET
TB(BOVP)
Total count 16
times, IC is
latched off
Figure 3. Battery OVP Timing Diagram
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
12
www.anpec.com.tw
APL3206/A/B
Application Information
tion at TA = 25oC can be calculated by following formula :
RBAT Selection
Connect the VBAT pin to the positive terminal of battery
through a resistor RBAT for battery OVP function. The RBAT
PD(MAX) = (125oC-25oC) / (165oC/W) = 0.606W
limits the current flowing from VBAT to battery in case of
VBAT pin is shortened to ACIN pin under a failure mode.
PD(MAX) = (125oC-25oC) / (220oC/W)= 0.455W
for TDFN2x2-8 packages
for TSOT-23-6A packages
The recommended value of RBAT is 200kΩ. In the worse
case of an IC failure, the current flowing from the VBAT
The maximum power dissipation depends on operating
ambient temperature for fixed TJ(MAX) and thermal resistance θJA. For APL3206/A packages, the Figure 4 of derat-
pin to the battery is:
(30V-3V) / 200kΩ =135µA
ing curves allows the designer to see the effect of rising
ambient temperature on the maximum power allowed.
where the 30V is the maximum ACIN voltage and the 3V
is the minimum battery voltage. The current is so small
and can be absorbed by the charger system.
0.8
Signal Layer PCB
0.7
Power Dissipation (W)
Capacitor Selection
The input capacitor is for decoupling and prevents the
input voltage from overshooting to dangerous levels. In
the AC adapter hot plug-in applications or load current
step-down transient, the input voltage has a transient
spike due to the parasitic inductance of the input cable. A
25V, X5R, dielectric ceramic capacitor with a value between 1µF and 4.7µF placed close to the ACIN pin is
TDFN2x2-8
0.6
0.5
TSOT-23-6A
0.4
0.3
0.2
0.1
0.0
recommended.
The output capacitor of CHRIN is for CHRIN voltage
0
25
50
75
Ambient Temperature (
decoupling. And also can be as the input capacitor of the
charging circuit. At least, a 1µF, 10V, X5R capacitor is
100
125
oC)
Figure 4. Derating Curves for APL3206/A Packages
recommended.
Layout Consideration
Thermal Considerations
In some failure modes, a high voltage may be applied to
The maximum power dissipation depends on the thermal resistance of IC package, PCB layout, the rate of
the device. Make sure the clearance constraint of the PCB
layout must satisfy the design rule for high voltage. The
surroundings airflow and temperature difference between
junction to ambient. The maximum power dissipation can
exposed pad of the TDFN2x2-8 performs the function of
channeling heat away. It is recommended that connect
be calculated by the following formula:
the exposed pad to a large copper ground plane on the
backside of the circuit board through several thermal vias
PD(MAX) = (TJ(MAX)-TA) / θJA
to improve heat dissipation. The input and output capacitors should be placed close to the IC. The high current
Where T J(MAX) is the maximum operation junction
temperature, TA is the ambient temperature and the θJA is
traces like input trace and output trace must be wide and
short.
the junction to ambient thermal resistance. For recommended operating conditions specification of APL3206/
A, where TJ(MAX) is 125oC and TA is the operated ambient
temperature. The junction to ambient thermal resistance
θJA for TDFN2x2-8 package is 165oC/W and TSOT-23-6A
package is 220oC/W on the standard JEDEC 51-3 singlelayer thermal test board. The maximum power dissipaCopyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
13
www.anpec.com.tw
APL3206/A/B
Package Information
TDFN2x2-8
A
b
E
D
D2
A1
E2
A3
L
Pin 1 Corner
e
S
Y
M
B
O
L
MIN.
MAX.
MIN.
MAX.
A
0.70
0.80
0.028
0.031
A1
0.00
0.05
0.000
0.002
TDFN2x2-8
MILLIMETERS
A3
INCHES
0.20 REF
0.008 REF
b
0.18
0.30
0.007
0.012
D
1.90
2.10
0.075
0.083
D2
1.00
1.60
0.039
0.063
E
1.90
2.10
0.075
0.083
E2
0.60
1.00
0.024
0.039
0.45
0.012
e
L
0.50 BSC
0.30
0.020 BSC
0.018
Note : 1. Follow from JEDEC MO-229 WCCD-3.
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
14
www.anpec.com.tw
APL3206/A/B
Package Information
TSOT-23-6A
D
e
E
E1
SEE VIEW A
b
c
0.25
A
GAUGE PLANE
SEATING PLANE
L
A1
A2
e1
VIEW A
S
Y
M
B
O
L
TSOT-23-6A
INCHES
MILLIMETERS
MIN.
MAX.
1.00
0.028
0.039
0.10
0.000
0.004
MIN.
MAX.
A
0.70
A1
0.01
A2
0.70
0.90
0.028
0.035
b
0.30
0.50
0.012
0.020
c
0.08
0.20
0.003
0.008
D
2.70
3.10
0.106
0.122
E
2.60
3.00
0.102
0.118
E1
1.40
1.80
0.055
0.071
e
0.95 BSC
e1
L
0
0.037 BSC
1.90 BSC
0.075 BSC
0.30
0.60
0°
8°
0.012
0.024
0°
8°
Note : Dimension D and E1 do not include mold flash, protrusions or gate
burrs. Mold flash, protrusion or gate burrs shall not exceed 10 mil
per side.
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
15
www.anpec.com.tw
APL3206/A/B
Carrier Tape & Reel Dimensions
P0
P2
P1
A
B0
W
F
E1
OD0
K0
A0
A
OD1 B
B
T
SECTION A-A
SECTION B-B
H
A
d
T1
Application
TDFN2x2-8
Application
TSOT-23-6A
A
H
T1
C
d
D
W
E1
F
178.0±2.00
50 MIN.
8.4+2.00
-0.00
13.0+0.50
-0.20
1.5 MIN.
20.2 MIN.
8.0±0.20
1.75±0.10
3.50±0.05
P0
P1
P2
D0
D1
T
A0
B0
K0
2.0±0.05
1.5+0.10
-0.00
1.5 MIN.
0.6+0.00
-0.4
3.35 MIN
3.35 MIN
1.30±0.20
4.0±0.10
4.0±0.10
A
H
T1
C
d
D
W
E1
F
178.0±2.00
50 MIN.
8.4+2.00
-0.00
13.0+0.50
-0.20
1.5 MIN.
20.2 MIN.
8.0±0.30
1.75±0.10
3.5±0.05
P0
P1
P2
D0
D1
T
A0
B0
K0
2.0±0.05
1.5+0.10
-0.00
1.0 MIN.
0.6+0.00
-0.40
3.20±0.20
3.10±0.20
1.50±0.20
4.0±0.10
4.0±0.10
(mm)
Devices Per Unit
Package Type
TDFN2x2-8
TSOT-23-6A
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
Unit
Tape & Reel
Tape & Reel
Quantity
3000
3000
16
www.anpec.com.tw
APL3206/A/B
Taping Direction Information
TDFN2x2-8
USER DIRECTION OF FEED
TSOT-23-6A
USER DIRECTION OF FEED
AAAX
AAAX
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
AAAX
AAAX
17
AAAX
AAAX
AAAX
www.anpec.com.tw
APL3206/A/B
Classification Profile
Classification Reflow Profiles
Profile Feature
Sn-Pb Eutectic Assembly
Pb-Free Assembly
100 °C
150 °C
60-120 seconds
150 °C
200 °C
60-120 seconds
3 °C/second max.
3°C/second max.
183 °C
60-150 seconds
217 °C
60-150 seconds
See Classification Temp in table 1
See Classification Temp in table 2
Time (tP)** within 5°C of the specified
classification temperature (Tc)
20** seconds
30** seconds
Average ramp-down rate (Tp to Tsmax)
6 °C/second max.
6 °C/second max.
6 minutes max.
8 minutes max.
Preheat & Soak
Temperature min (Tsmin)
Temperature max (Tsmax)
Time (Tsmin to Tsmax) (ts)
Average ramp-up rate
(Tsmax to TP)
Liquidous temperature (TL)
Time at liquidous (tL)
Peak package body Temperature
(Tp)*
Time 25°C to peak temperature
* Tolerance for peak profile Temperature (Tp) is defined as a supplier minimum and a user maximum.
** Tolerance for time at peak profile temperature (tp) is defined as a supplier minimum and a user maximum.
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
18
www.anpec.com.tw
APL3206/A/B
Classification Reflow Profiles (Cont.)
Table 1. SnPb Eutectic Process – Classification Temperatures (Tc)
Package
Thickness
<2.5 mm
≥2.5 mm
Volume mm
<350
235 °C
220 °C
3
Volume mm
≥350
220 °C
220 °C
3
Table 2. Pb-free Process – Classification Temperatures (Tc)
Package
Thickness
<1.6 mm
1.6 mm – 2.5 mm
≥2.5 mm
Volume mm
<350
260 °C
260 °C
250 °C
3
Volume mm
350-2000
260 °C
250 °C
245 °C
3
Volume mm
>2000
260 °C
245 °C
245 °C
3
Reliability Test Program
Test item
SOLDERABILITY
HOLT
PCT
TCT
HBM
MM
Latch-Up
Method
JESD-22, B102
JESD-22, A108
JESD-22, A102
JESD-22, A104
MIL-STD-883-3015.7
JESD-22, A115
JESD 78
Description
5 Sec, 245°C
1000 Hrs, Bias @ 125°C
168 Hrs, 100%RH, 2atm, 121°C
500 Cycles, -65°C~150°C
VHBM≧2KV
VMM≧200V
10ms, 1tr≧100mA
Customer Service
Anpec Electronics Corp.
Head Office :
No.6, Dusing 1st Road, SBIP,
Hsin-Chu, Taiwan, R.O.C.
Tel : 886-3-5642000
Fax : 886-3-5642050
Taipei Branch :
2F, No. 11, Lane 218, Sec 2 Jhongsing Rd.,
Sindian City, Taipei County 23146, Taiwan
Tel : 886-2-2910-3838
Fax : 886-2-2917-3838
Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jan., 2010
19
www.anpec.com.tw
Similar pages