TI PT6216

PT6210 Series
2 Amp Adjustable Positive Step-down
Integrated Switching Regulator
SLTS030B
(Revised 9/30/2000)
•
•
•
•
•
•
•
90% Efficiency
Adjustable Output Voltage
Internal Short Circuit Protection
Over-Temperature Protection
On/Off Control (Ground Off)
Small SIP Footprint
Wide Input Range
The PT6210 Series is a line of
High-Performance 2 Amp, 12-Pin SIP
(Single In-line Package) Integrated
Pin-Out Information
Standard Application
VOADJ
12
VIN
2,3,4
PT6210
VOUT
9,10,11
1
5,6,7,8
C1
INH
+
C2
Q1
COM
COM
C1 = Optional 1µF ceramic
C2 = Required 100µF electrolytic
Q1 = NFET
(1)
Pin
Function
1
(30V max)
2
3
Vin
Vin
4
5
Vin
GND
6
7
GND
GND
8
9
GND
Vout
Inhibit
10
11
Vout
Vout
12
Vout Adj (5)
Switching Regulators (ISRs) designed to
meet the on-board power conversion
needs of battery powered or other equipment requiring high efficiency and small
size. This high performance ISR family
offers a unique combination of features
combining 90% typical efficiency with
open-collector on/off control and adjustable output voltage. Quiescent
current in the shutdown mode is typically
less than 100µA.
Ordering Information
PT Series Suffix (PT1234X)
PT6211¨
PT6212¨
PT6213¨
PT6214¨
PT6216¨
Case/Pin
Configuration
Vertical Through-Hole
Horizontal Through-Hole
Horizontal Surface Mount
= +5.1 Volts
= +5.0 Volts
= +3.3 Volts
= +12 Volts
= +1.5Volts
Pkg Style 200
P
D
E
Note: Heat spreaders are not
electrically connected to product.
Note: Back surface of
product is conducting metal.
Specifications
PT6210 SERIES
Characteristics
(Ta = 25°C unless noted)
Symbols
Output Current
Short Circuit Current
Io
Isc
Over Vin range
Vin = Vin min
Input Voltage Range
Vin
0.1 ≤ Io ≤ 2.0 A
Conditions
(Note: inhibit function cannot
be used with Vin above 30V.)
Min
Typ
Max
Units
—
5.0
2.0
—
A
Apk
16
9
9
9
—
—
—
—
30/38 (3)
30/38 (3)
26
17
V
0.1
—
Vo = 12V
Vo = 5.0V
Vo = 3.3V
Vo = 1.5V
(2)
Output Voltage Tolerance
∆Vo
Over Vin Range, Io = 2.0 A
Ta = 0°C to +60°C
—
±1.0
±2.0
%Vo
Line Regulation
Load Regulation
Regline
Regload
Over Vin range
0.1 ≤ Io ≤ 2.0 A
—
—
±0.25
±0.25
±0.5
±0.5
%Vo
%Vo
Vo Ripple/Noise
Vn
Vin = Vin min
—
±2
—
%Vo
Transient Response
with Co = 100µF
Efficiency
ttr
Vos
η
—
—
—
—
—
—
450
400
100
5.0
91
89
84
72
—
—
200
—
—
—
—
—
900
500
µSec
%Vo
Switching Frequency
ƒo
50% load change
Vo over/undershoot
Vin= 16V, Io =0.5A
Vin=9V, Io = 0.5 A
Vin=9V, Io = 0.5 A
Vin=9V, Io = 0.5 A
Over Vin and Io ranges
Shutdown Current
Quiescent Current
Isc
Inl
Vin = 16V
Io = 0A, Vin =10V
—
—
100
10
—
—
µA
mA
Absolute Maximum
Operating Temperature Range
Ta
Over Vin range
-40
—
+85 (4)
°C
Thermal Resistance
θja
Free Air Convection (40-60LFM)
—
40
—
°C/W
Storage Temperature
Ts
—
-40
—
+125
°C
Mechanical Shock
—
—
500
—
G’s
Mechanical Vibration
—
—
10
—
G’s
Weight
—
Per Mil-STD-883D, Method 2002.3,
1 msec, Half Sine, mounted to a fixture
Per Mil-STD-883D, Method 2007.2,
20-2000 Hz, Soldered in a PC board
—
—
6
—
grams
Notes: (1)
(2)
(3)
(4)
(5)
Vo = 12V
Vo = 5.0V
Vo = 3.3V
Vo = 1.5V
Vo ≥ 3.3V
Vo = 1.5V
The PT6210 Series requires a 100µF electrolytic or tantalum output capacitor for proper operation in all applications.
The ISR will operate to no load with reduced specifications.
Input voltage cannot exceed 30V when the inhibit function is used.
See Thermal Derating charts.
Consult the related application note for guidance on adjusting the output voltage.
For technical support and more information, see inside back cover or visit www.ti.com/powertrends
%
kHz
Typical Characteristics
PT6210 Series
2 Amp Adjustable Positive Step-down
Integrated Switching Regulator
PT6213, 3.3 VDC
PT6212, 5.0 VDC
(See Note A)
Efficiency vs Output Current
Efficiency vs Output Current
100
Efficiency vs Output Current
90
70
9.0V
12.0V
18.0V
24.0V
30.0V
38.0V
70
60
60
V
90
Vin
80
Efficiency - %
9.0V
12.0V
15.0V
18.0V
24.0V
26.0V
Efficiency - %
Vin
80
(See Note A)
100
100
90
Efficiency - %
PT6214, 12.0 VDC
(See Note A)
Vin
80
16.0V
20.0V
24.0V
30.0V
38.0V
70
60
50
50
50
40
40
0
0
0.5
1
1.5
0.5
1
1.5
40
2
0
2
Iout-(Amps)
0.5
1
Iout-(Amps)
Ripple vs Output Current
Ripple vs Output Current
150
1.5
2
Iout-(Amps)
Ripple vs Output Current
400
150
350
120
120
60
30
38.0V
30.0V
24.0V
18.0V
12.0V
9.0V
90
60
Vin
250
Ripple-(mV)
26.0V
24.0V
18.0V
15.0V
12.0V
9.0V
90
300
Vin
Ripple-(mV)
Ripple-(mV)
Vin
38.0V
30.0V
24.0V
20.0V
16.0V
200
150
100
30
50
0
0
0
0.5
1
1.5
2
0
0
0.5
1
Iout-(Amps)
1.5
0
2
0.5
1
Iout-(Amps)
Thermal Derating (Ta)
Thermal Derating (Ta)
(See Note B)
70°C
2
1.5
2
Iout-(Amps)
Thermal Derating (Ta)
(See Note B)
2
(See Note B)
2
60°C
50°C
85°C
1.5
60°C
1.5
1.5
1
0.5
Iout-(Amps)
Iout-(Amps)
Iout-(Amps)
70°C
85°C
1
1
70°C
0.5
0.5
0
0
9
12
15
18
21
24
0
27
16
9
12
15
Vin-(Volts)
18
21
24
27
30
33
36
18
20
Vin-(Volts)
Power Dissipation vs Output Current
24
26
28
30
32
34
36
38
Vin-(Volts)
Power Dissipation vs Output Current
Power Dissipation vs Output Current
2.5
2.5
22
39
3.5
3
2
2
1.5
1
Vin
38.0V
30.0V
24.0V
18.0V
12.0V
9.0V
1.5
1
PD-(Watts)
26.0V
24.0V
18.0V
15.0V
12.0V
9.0V
PD-(Watts)
PD-(Watts)
Vin
2.5
Vin
38.0V
30.0V
24.0V
20.0V
16.0V
2
1.5
1
0.5
0.5
0.5
0
0
0.5
1
1.5
2
0
0
0
Iout-(Amps)
0.5
1
1.5
Iout-(Amps)
2
0
0.5
1
1.5
2
Iout-(Amps)
Note A: The characteristic data listed in the above graphs has been developed from actual products tested at 25°C. This data is considered typical data for the ISR.
Note B: Thermal derating graphs are developed in free air convection cooling of 40-60 LFM. (See Thermal Application Notes).
For technical support and more information, see inside back cover or visit www.ti.com/powertrends
Application Notes
PT6100/6210/6300 Series
Adjusting the Output Voltage of Power Trends’
Wide Input Range Bus ISRs
The output voltage of the Power Trends’ Wide Input
Range Series ISRs may be adjusted higher or lower than
the factory trimmed pre-set voltage with the addition of a
single external resistor. Table 1 accordingly gives the
allowable adjustment range for each model for either
series as Va (min) and Va (max).
Adjust Up:
An increase in the output voltage is obtained by
adding a resistor R2, between pin 12 (Vo adjust) and pins 5-8
(GND).
Adjust Down: Add a resistor (R1), between pin 12 (Vo adjust)
and pins 9-11(Vout).
Notes:
1. Use only a single 1% resistor in either the (R1) or R2
location. Place the resistor as close to the ISR as possible.
2. Never connect capacitors from Vo adjust to either GND
or Vout. Any capacitance added to the Vo adjust pin will
affect the stability of the ISR.
3. Adjustments to the output voltage may place additional
limits on the maximum and minimum input voltage for
the part. The revised maximum and minimum input
voltage limits must comply with the following
requirements. The limits are model dependant.
PT6216/PT6314:
Vin (max) = (10 x Va)V or 17V, whichever is less.
Vin (min) = 9.0V
Figure 1
All other models:
2,3,4
Vin
PT6100/6200/6300
Vin
Vo
GND
9,10,11
Vo
5,6,7,8
12
(R1)
Adj Down
C1
1µF Ceramic
(Optional)
Vin (max) = (8 x Va)V or as specified.
Vin (min) = (Va + 4)V or 9V, whichever is greater.
Vo(adj)
C2
100µF
(Req'd)
+
R2
Adjust
Up
COM
COM
The values of (R1) [adjust down], and R2 [adjust up], can
also be calculated using the following formulas. Refer to
Figure 1 and Table 2 for both the placement and value of the
required resistor; either (R1) or R2 as appropriate.
(R1)
=
Ro (Va – 1.25)
Vo – Va
kΩ
R2
=
1.25 Ro
Va – Vo
kΩ
Where: Vo = Original output voltage
Va = Adjusted output voltage
Ro = The resistance value fromTable 1
Table 1
ISR ADJUSTMENT RANGE AND FORMULA PARAMETERS
1Adc Rated
2Adc Rated
3Adc Rated
PT6216
PT6314
PT6102
PT6213
PT6303
PT6101
PT6212
PT6302
PT6103
PT6214
PT6304
12.0
Vo (nom)
Va (min)
1.5
3.3
5.0
5.0
1.3
1.8
1.88
2.18
2.43
Va (max)
Ω)
Ro (kΩ
1.9
6.07
11.25
8.5
22.12
8.25
66.5
150.0
90.9
243.0
For technical support and more information, see inside back cover or visit www.ti.com/powertrends
Application Notes continued
PT6100/6210/6300 Series
Table 2
ISR ADJUSTMENT RESISTOR VALUES
1Adc Rated
2Adc Rated
3Adc Rated
Vo (nom)
Va (req.d)
PT6216
PT6314
1.5
PT6102
PT6213
PT6303
3.3
ISR ADJUSTMENT RESISTOR VALUES (Cont)
PT6101
5.0
PT6212
PT6302
5.0
PT6103
PT6214
PT6304
12.0
1Adc Rated
2Adc Rated
3Adc Rated
Vo (nom)
Va (req.d)
PT6101
5.0
PT6212
PT6302
5.0
PT6103
PT6214
PT6304
12.0
1.3
(2.1kΩ)
6.2
156.0kΩ
94.7kΩ
(207.0)kΩ
1.4
(12.4kΩ)
6.4
134.0kΩ
81.2kΩ
(223.0)kΩ
6.6
117.0kΩ
71.0kΩ
(241.0)kΩ
1.5
1.6
103.0kΩ
6.8
104.0kΩ
63.1kΩ
(259.0)kΩ
1.7
51.6kΩ
7.0
93.8kΩ
56.8kΩ
(279.0)kΩ
1.8
34.4kΩ
(24.4)kΩ
7.2
85.2kΩ
51.6kΩ
(301.0)kΩ
1.9
25.8kΩ
(30.9)kΩ
(31.5)kΩ
7.4
78.1kΩ
47.3kΩ
(325.0)kΩ
2.0
(38.4)kΩ
(37.5)kΩ
7.6
72.1kΩ
43.7kΩ
(351.0)kΩ
2.1
(47.1)kΩ
(44.0)kΩ
7.8
67.0kΩ
40.6kΩ
(379.0)kΩ
2.2
(57.4)kΩ
(50.9)kΩ
(30.8)kΩ
8.0
62.5kΩ
37.9kΩ
(410.0)kΩ
2.3
(69.8)kΩ
(58.3)kΩ
(35.4)kΩ
8.2
58.6kΩ
35.5kΩ
(444.0)kΩ
2.4
(85.0)kΩ
(66.3)kΩ
(40.2)kΩ
8.4
55.1kΩ
33.4kΩ
(483.0)kΩ
2.5
(104.0)kΩ
(75.0)kΩ
(45.5)kΩ
(32.0)kΩ
8.6
52.1kΩ
(525.0)kΩ
2.6
(128.0)kΩ
(84.4)kΩ
(51.1)kΩ
(34.9)kΩ
8.8
49.3kΩ
(573.0)kΩ
2.7
(161.0)kΩ
(94.6)kΩ
(57.3)kΩ
(37.9)kΩ
9.0
46.9kΩ
(628.0)kΩ
2.8
(206.0)kΩ
(106.0)kΩ
(64.0)kΩ
(40.9)kΩ
9.5
41.7kΩ
(802.0)kΩ
2.9
(274.0kΩ
(118.0)kΩ
(71.4)kΩ
(44.1)kΩ
10.0
37.5kΩ
(1060.0)kΩ
3.0
(388.0)kΩ
(131.0)kΩ
(79.5)kΩ
(47.3)kΩ
10.5
34.1kΩ
(1500.0)kΩ
3.1
(615.0)kΩ
(146.0)kΩ
(88.5)kΩ
(50.5)kΩ
11.0
31.3kΩ
3.2
(1300.0)kΩ
(163.0)kΩ
(98.5)kΩ
(53.8)kΩ
11.5
3.3
(181.0)kΩ
(110.0)kΩ
(57.3)kΩ
3.4
831.0kΩ
(202.0)kΩ
(122.0)kΩ
(60.8)kΩ
12.5
608.0kΩ
3.5
416.0kΩ
(225.0)kΩ
(136.0)kΩ
(64.3)kΩ
13.0
304.0kΩ
3.6
227.0kΩ
(252.0)kΩ
(153.0)kΩ
(68.0)kΩ
13.5
203.0kΩ
3.7
208.0kΩ
(283.0)kΩ
(171.0)kΩ
(71.7)kΩ
14.0
152.0kΩ
3.8
166.0kΩ
(319.0)kΩ
(193.0)kΩ
(75.6)kΩ
14.5
122.0kΩ
3.9
139.0kΩ
(361.0)kΩ
(219.0)kΩ
(79.5)kΩ
15.0
101.0kΩ
4.0
119.0kΩ
(413.0)kΩ
(250.0)kΩ
(83.5)kΩ
15.5
86.8kΩ
4.1
104.0kΩ
(475.0)kΩ
(288.0)kΩ
(87.7)kΩ
16.0
75.9kΩ
4.2
92.4kΩ
(533.0)kΩ
(335.0)kΩ
(91.9)kΩ
16.5
67.5kΩ
4.3
83.1kΩ
(654.0)kΩ
(396.0)kΩ
(96.3)kΩ
17.0
60.8kΩ
4.4
75.6kΩ
(788.0)kΩ
(477.0)kΩ
(101.0)kΩ
17.5
55.2kΩ
4.5
69.3kΩ
(975.0)kΩ
(591.0)kΩ
(105.0)kΩ
18.0
50.6kΩ
4.6
63.9kΩ
(1260.0)kΩ
(761.0)kΩ
(110.0)kΩ
18.5
46.7kΩ
4.7
59.4kΩ
(1730.0)kΩ
(1050.0)kΩ
(115.0)kΩ
19.0
43.4kΩ
4.8
55.4kΩ
(1610.0)kΩ
(120.0)kΩ
19.5
40.5kΩ
4.9
52.0kΩ
(125.0)kΩ
20.0
38.0kΩ
5.0
48.9kΩ
(130.0)kΩ
20.5
35.7kΩ
5.1
46.2kΩ
1880.0kΩ
1140.0kΩ
(136.0)kΩ
21.5
33.8kΩ
5.2
43.8kΩ
937.0kΩ
568.0kΩ
(141.0)kΩ
21.5
32.0kΩ
5.3
41.6kΩ
625.0kΩ
379.0kΩ
(147.0)kΩ
22.0
30.4kΩ
5.4
39.6kΩ
469.0kΩ
284.0kΩ
(153.0)kΩ
5.5
37.8kΩ
375.0kΩ
227.0kΩ
(159.0)kΩ
5.6
36.1kΩ
313.0kΩ
189.0kΩ
(165.0)kΩ
5.7
34.6kΩ
268.0kΩ
162.0kΩ
(172.0)kΩ
5.8
33.3kΩ
234.0kΩ
142.0kΩ
(178.0)kΩ
5.9
32.0kΩ
208.0kΩ
126.0kΩ
(185.0)kΩ
6.0
30.8kΩ
188.0kΩ
114.0kΩ
(192.0)kΩ
R1 = (Blue)
12.0
R2 = Black
For technical support and more information, see inside back cover or visit www.ti.com/powertrends
Application Notes
PT6100/6210/6300 Series
Using the Inhibit Function on Power Trends’
Wide Input Range Bus ISRs
For applications requiring output voltage On/Off control,
the 12pin ISR products incorporate an inhibit function.
The function has uses in areas such as battery conservation,
power-up sequencing, or any other application where the
regulated output from the module is required to be
switched off. The On/Off function is provided by the
Pin 1 (Inhibit) control.
Figure 1
The ISR functions normally with Pin 1 open-circuit,
providing a regulated output whenever a valid source
voltage is applied to Vin, (pins 2, 3, & 4). When a lowlevel2 ground signal is applied to Pin 1, the regulator
output will be disabled.
Inh
Figure 1 shows an application schematic, which details
the typical use of the Inhibit function. Note the discrete
transistor (Q1). The Inhibit control has its own internal
pull-up with a maximum open-circuit voltage of 8.3VDC.
Only devices with a true open-collector or open-drain
output can be used to control this pin. A discrete bipolar
transistor or MOSFET is recommended.
Equation 1 may be used to determine the approximate
current drawn by Q1 when the inhibit is active.
Equation 1
= Vin ÷ 155kΩ
PT6100/6210/6300
Vin
Vo
Inh*
1
C1, 1µF
(Optional)
GND
9,10,11
V out
Vo(adj)
5,6,7,8
12
C2
100µF
Q1
BSS138
+
COM
COM
Turn-On Time: The output of the ISR is enabled automatically
when external power is applied to the input. The Inhibit control
pin is pulled high by its internal pull-up resistor. The ISR
produces a fully regulated output voltage within 1-msec of
either the release of the Inhibit control pin, or the application
of power. The actual turn-on time will vary with the input
voltage, output load, and the total amount of capacitance connected to the output Using the circuit of Figure 1, Figure 2
shows the typical rise in output voltage for the PT6101
following the turn-off of Q1 at time t =0. The waveform was
measured with a 9Vdc input voltage, and 5-Ohm resistive load.
± 20%
Notes:
1. The Inhibit control logic is similar for all Power Trends’
modules, but the flexibility and threshold tolerances will be
different. For specific information on the inhibit function
of other ISR models, consult the applicable application
note.
2. Use only a true open-collector device (preferably a discrete
transistor) for the Inhibit input. Do Not use a pull-up
resistor, or drive the input directly from the output of a
TTL or other logic gate. To disable the output voltage,
the control pin should be pulled low to less than +1.5VDC.
3. When the Inhibit control pin is active, i.e. pulled low, the
maximum allowed input voltage is limited to +30Vdc.
Figure 2
6
5
4
Vo (Vdc)
Istby
2,3,4
V in
3
2
1
0
-0.2
4. Do not control the Inhibit input with an external DC
voltage. This will lead to erratic operation of the ISR and
may over-stress the regulator.
5. Avoid capacitance greater than 500pF at the Inhibit control
pin. Excessive capacitance at this pin will cause the ISR to
produce a pulse on the output voltage bus at turn-on.
6. Keep the On/Off transition to less than 10µs. This
prevents erratic operation of the ISR, which can cause a
momentary high output voltage.
For technical support and more information, see inside back cover or visit www.ti.com/powertrends
0
0.2
0.4
t (milli-secs)
0.6
0.8
1
PACKAGE OPTION ADDENDUM
www.ti.com
3-Jul-2009
PACKAGING INFORMATION
Orderable Device
Status (1)
Package
Type
Package
Drawing
Pins Package Eco Plan (2)
Qty
PT6211P
NRND
SIP MOD
ULE
EBD
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
PT6212D
NRND
SIP MOD
ULE
EBA
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
PT6212E
NRND
SIP MOD
ULE
EBC
12
12
Pb-Free
(RoHS)
Call TI
Level-1-215C-UNLIM
PT6212P
NRND
SIP MOD
ULE
EBD
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
PT6213D
NRND
SIP MOD
ULE
EBA
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
PT6213E
NRND
SIP MOD
ULE
EBC
12
12
Pb-Free
(RoHS)
Call TI
Level-1-215C-UNLIM
PT6213P
NRND
SIP MOD
ULE
EBD
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
PT6214D
NRND
SIP MOD
ULE
EBA
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
PT6214E
NRND
SIP MOD
ULE
EBC
12
12
Pb-Free
(RoHS)
Call TI
Level-1-215C-UNLIM
PT6214P
NRND
SIP MOD
ULE
EBD
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
PT6216E
NRND
SIP MOD
ULE
EBC
12
12
Pb-Free
(RoHS)
Call TI
Level-1-215C-UNLIM
PT6216P
NRND
SIP MOD
ULE
EBD
12
12
Pb-Free
(RoHS)
Call TI
N / A for Pkg Type
Lead/Ball Finish
MSL Peak Temp (3)
(1)
The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in
a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2)
Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check
http://www.ti.com/productcontent for the latest availability information and additional product content details.
TBD: The Pb-Free/Green conversion plan has not been defined.
Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements
for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered
at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.
Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and
package, or 2) lead-based die adhesive used between the die and leadframe. The component is otherwise considered Pb-Free (RoHS
compatible) as defined above.
Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame
retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material)
(3)
MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder
temperature.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is
provided. TI bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the
accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and continues to take
reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on
incoming materials and chemicals. TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited
information may not be available for release.
Addendum-Page 1
PACKAGE OPTION ADDENDUM
www.ti.com
3-Jul-2009
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI
to Customer on an annual basis.
Addendum-Page 2
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