UBA2024T SO14 13W demo board

UM10392
UBA2024T SO14 13 W demo board
Rev. 3 — 25 January 2011
User manual
Document information
Info
Content
Keywords
UBA2024T, half-bridge CFL driver, non-dimmable
Abstract
This document describes the correct use of the UBA2024T half-bridge
CFL driver demo boards for both 120 V and 230 V mains voltages and
some circuit examples for up to 13 W
UM10392
NXP Semiconductors
UBA2024T SO14 13 W demo board
Revision history
Rev
Date
Description
v.3
20110125
third issue
v.2
20100407
second issue
v.1
20091002
first issue
Contact information
For more information, please visit: http://www.nxp.com
For sales office addresses, please send an email to: [email protected]
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UBA2024T SO14 13 W demo board
1. Introduction
1.1 Safety warning
WARNING
Lethal voltage and fire ignition hazard
The non-insulated high voltages that are present when operating this product, constitute a
risk of electric shock, personal injury, death and/or ignition of fire.
This product is intended for evaluation purposes only. It shall be operated in a designated test
area by personnel qualified according to local requirements and labor laws to work with
non-insulated mains voltages and high-voltage circuits. This product shall never be operated
unattended.
The board needs to be connected to mains voltage. Touching the reference board during
operation must be avoided at all times. An isolated housing is obligatory when used in
uncontrolled, non-laboratory environments. Galvanic isolation of the mains phase using a
variable transformer is always recommended. These devices can be recognized by the
symbols shown in Figure 1:
019aaa690
a. Isolated
Fig 1.
019aaa691
Not isolated
Variac isolation symbols
1.2 General description
The UBA2024T circuit is a half-bridge driver IC, which has been set-up to drive a standard
PLC-13 W, G24q-2 socket based lamp or similar lamp types with a nominal lamp power of
12.5 W. The total power drawn from the mains is about 13 W at a nominal mains voltage
of 230 V (RMS); 50 Hz or 120 V (RMS); 60 Hz set-up. The board can easily be configured
to drive different Compact Fluorescent Lamps (CFL) of different power ratings as some
design examples will show by changing the inductor tap and applying a different lamp
capacitor. The UBA2024T demo board is not recommended for driving lower voltage
linear lighting lamps like the T5 or the T8. The UBA2021 is the optimal option for these
type of lamps. The IC is able to drive lamps up to 15 W provided the maximum junction
temperature of the IC is not exceeded. There are no THD requirements for mains powers
lower than 25 W so that a preconditioning function is obsolete.
The circuit is set-up to do a quasi preheat, so the lamp will turn on approximately 0.7 s
after the mains voltage has been applied to the board. For detailed design steps on how to
set-up lamps with other power ratings please consult the application note AN10713.
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UBA2024T SO14 13 W demo board
Depending on the ordered board the mains voltage operating range is either set for
90 V to 130 V (RMS) or 200 V to 250 V (RMS). Both voltage range strappings have been
incorporated in one layout of the board. This makes easier to set-up the same board with
a different voltage range. Since the IC was basically intended as a cost-effective solution
to drive CFLs with an integrated ballast (CFLi), the IC is not equipped with a thermal
protection or open lamp detection. As the demo board has been set-up around a
detachable lamp, a protection circuit has been added to it to set the IC to a safe mode of
operation when no lamp is attached to the circuit. This circuit is not needed in a typical
CFL application.
Remark: If the UBA2024AT is used in a non-integrated ballast or a 'matchbox' type of
ballast, the protection circuit is a requirement.
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2.2 mH
D1
K1
LLA
WE-Bobbin EF20
D2
CBUF1(1)
3
2
RFUS
FS
(1)
CHB1
100 nF
200 V
6
4
11
7
CFS
10 nF
8
14
6
5
4
1
1
1
J1
J2
J3
3
OUT
1
UBA2024T
1
2
3
MKDS 1,5/2
110 V (AC) K1-pin 2-pin 1
230 V (AC) K1-pin 2-pin 3
Rev. 3 — 25 January 2011
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D4
D3
(1)
CBUF2
nm nm
2
2
CHB2
2
9
100 nF
200 V
10
PGND
W1
GND
5
CDV
220 pF
500 V
12
13
VDD
VDD
RC
Rosc
200 kΩ
SW
R8
SGND1
RC
0Ω
SGND2
CSW
220 nF
SGND3
CVDD
10 nF
Cosc
100 pF
SGND4
GND
SGND5
NXP Semiconductors
HV
2. Schematic diagram
UM10392
User manual
U1
LLA
1N4007 1N4007(1)
SGND6
SGND7
1N4007 1N4007(1)
K3
1
VDD
2
MKDS 1,5/2
K2
1
R3
220 kΩ
CLA
1.5 nF
1000 V
4
5
T1-2
BC847BPN
2
3
R6
R7
1 MΩ
1 MΩ
2
3
RC
MKDS 1,5/2
(1)NOTE! design combines 110V (AC) and 230V (AC)
230 V (AC):
RFUS = 10 Ω/1 W
CBUF1 = 6.8 μF/400 V
CBUF2 = wire bridge
D1 to D4 are all mounted 1N4007
K1 mounted on position 2, 3
J1, J2, J3 are 0 Ω resistor jumpers
J1 = 2.1 mH
J2 = 2.7 mH
J3 = 3.1 mH, default set for 13 W
DO NOT short more than one jumper
at the same time.
2
C11
3.3 μF
R4
33 kΩ
R5
180 kΩ
1
T1-1
BC847BPN
C12 1
220 pF
GND
OPTIONAL "LAMP DETECTION CIRCUIT"
019aab390
Fig 2.
Schematic diagram
UM10392
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© NXP B.V. 2011. All rights reserved.
120 V (AC):
RFUS = 6.8 Ω/1 W
CBUF1, CBUF2 = 10 μF/200 V
D2 and D3 NOT mounted
K1 mounted on position 1, 2
6
lamp inductor selection
UBA2024T SO14 13 W demo board
D5
BAV70W
UM10392
NXP Semiconductors
UBA2024T SO14 13 W demo board
3. Specification
019aab075
Fig 3.
UBA2024T 230 V (AC) mains demo board
019aab079
Fig 4.
UBA2024T 120 V (AC) mains demo board
The UBA2024T demo board is set-up to drive an 13 W burner with a G24q-1 type of
socket. The specifications for this setup are:
230 V (AC):
•
•
•
•
•
•
Input voltage range: 230 V (AC);  15 %; 50 Hz
Input power: 13 W at 230 V (AC)
Input current: 105 mA at 230 V (AC)
Power factor: 0.55
Running frequency 44 kHz; start frequency 110 kHz
700 ms quasi-preheat
120 V (AC):
•
•
•
•
•
•
Input voltage range: 120 V (AC);  15 %; 60 Hz
Input power: 13 W at 120 V (AC)
Input current: 180 mA at 120 V (AC)
Power factor: 0.58
Running frequency 44 kHz; start frequency 110 kHz
700 ms quasi-preheat
Protections:
• No load and lamp removal protection by means of external protection circuit
Burners:
• Osram Dulux D/E 13 W; 4-pin; G24q-1
• Philips PL-C 13 W; 4-pin; G24q-1
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• General Electric F13DBX ECO 4P; G24q-1
Other burners that are electrically possible and safe to use:
•
•
•
•
Osram Dulux T/E 13 W; 4-pin; Gx24q-1
Philips PL-T 13 W; 4-pin; Gx24q-1
General Electric F13TBX ECO 4P; GX24q-1
All T2 or T3 12.5 W burners with 80 V lamp voltage and 165 mA lamp current
3.1 Board connections
The connection to the lamp is very straight forward as the Figure 5 and Figure 6 show.
The board has been designed to accommodate layouts for 120 V (AC) or 230 V (AC) line
voltages. An ordered board is preset for a certain line voltage. The labeling on the board
for the mains voltage connector has been designed in such a way that the correct line
voltage label becomes visible when the two way screw terminal block for the mains
voltage is soldered to the proper position.
When a board for a specific line voltage is ordered, the customer is free to set it up for a
different line voltage. Ensure that the position of the two way screw terminal block is
changed accordingly, so the correct mains voltage label is visible.
C10
1
T2
D1
W1
GND
CFL
1
C1
C2
+ D4
D3
K2
K3
1
6
K1
R1
4
L1
D2
+
3
C4
C3
230 V (AC)
1
230 V AC
Fig 5.
UM10392
User manual
019aab076
Connecting the 230 V (AC) mains demo board
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UM10392
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UBA2024T SO14 13 W demo board
C10
1
T2
D1
K2
CFL
1
C1
C2
+ D4
D3
W1
GND
K3
1
6
K1
R1
4
L1
D2
+
3
C4
C3
110 V AC
1
110-120 V (AC)
Fig 6.
019aab077
Connecting the 120 V (AC) mains demo board
3.2 Lamp inductor selection
The inductor supplied with this board has been made to accommodate three inductors in
one. This makes setting up the board for different lamp powers easier, since it is much
easier to change the lamp capacitor than the lamp inductor. It also speeds up the design
time (see Section 5 and the application note AN10713).
Figure 5 shows how to select a different lamp inductor. The inductor can be set for 3.1 mH
(default setting on delivery for the 13 W lamp), 2.7 mH, and 2.1 mH, The saturation
current for the 2.1 mH inductor setting is 1.1 A at 125 C ambient.
Remark: Only short one jumper, otherwise the inductor windings become shorted.
3.1 mH
2.7 mH
2.1 mH
default setting
3322-029-91211
Fig 7.
UM10392
User manual
signal bottom side
019aab078
Selecting the lamp inductor by resistor programming on the bottom side of the
board
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UBA2024T SO14 13 W demo board
3.3 Bill of material 13 W lamp
Table 1.
13 W lamp (12 W; 150 mA burner; requiring warm ignition; fO = 44 kHz)
Reference
Description
Remarks
115 V; 60 Hz
230 V; 50 Hz
RFUS
fusible inrush current
limiter resistor
special type, fusible, high peak power
6.8 
10 
D1, D2
voltage doubler diodes
1N4007
-
D1, D4
bridge rectifier diodes
-
1N4007
high temperature electrolytic type
10 F; 200 V
-
-
6.8 F; 400 V
CBUF1, CBUF2 buffer capacitors
CBUF1
buffer capacitor
high temperature electrolytic type
LFILT
filter inductor
axial type
CHB1, CHB1
half-bridge capacitors
CLA
2.2 mH; 200 mA
2.2 mH; 200 mA
100 nF; 400 V
100 nF; 400 V
lamp capacitor
high voltage polypropylene film type
1.5 nF; 800 V
capable of withstanding peak voltages
1.5 nF; 800 V
LLA
lamp inductor
E20 core for lamp powers up to 23 W; 3.1 mH
Würth electronic type: 760370084
(see Section 6); J1 = open; J2 = open;
J3 = closed
3.1 mH
CDV
dV/dt limiting capacitor
220 pF; 500 V
220 pF; 500 V
CFS
floating supply buffer
capacitor
SMD: X7R type; leaded: PET type,
high temperature
10 nF; 50 V
10 nF; 50 V
CVDD
low voltage supply
buffer capacitor
SMD: X7R type; leaded: PET type,
high temperature
10 nF; 50 V
10 nF; 50 V
COSC
oscillator capacitor
SMD: NP0 type; leaded: C0G type,
preferably high accuracy value type
100 pF; 50 V; 2 %
100 pF; 50 V; 2 %
ROSC
oscillator resistor
preferably E96 series high accuracy
value type
200 k; 1/8 W; 1 %
200 k; 1/8 W; 1 %
CSW
sweep time capacitor
SMD: X7R type; leaded: PET type,
high temperature
220 nF; 50 V
220 nF; 50 V
U1
CFL half-bridge driver
IC
NXP ordering code: 9352 703 84518
UBA2024T
UBA2024T
Table 2.
Components values for the optional lamp detection circuit
Reference
Description
Remarks
R3
resistor
preferably E24 series high accuracy value type 220 k; 0.125 W; 1 %
R4
resistor
preferably E24 high accuracy value type
R5
resistor
180 k; 0.125 W
R6, R7
resistor
1 M; 0.125 W
C11
ignition time-out capacitor
MLCC X7R type with a voltage rating 10 V
3.3 F; 10 V
C12
capacitor
ceramic or NP0; leaded type
220 pF; 16 V
D5
double diode common cathode
Q1-1, Q2-2
PNP/NPN transistor in one package hfe > 100 at 10 A
or use separate transistors.
UM10392
User manual
Value
33 k; 0.125 W; 1 %
BC847BNP
Q1-1
hfe > 100 at 10 A
BC847B
Q2-2
hfe > 100 at 10 A
BC857B
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4. Thermal considerations SO package
As can be seen on Figure 3 and Figure 4 the board outline for the UBA2024AT in the
SO14 package drawn on the demo board is T shaped. The reason for this shape is that an
actual board with a similar shape is intended to be mounted vertically into a CFL lamp
base. In this way distance is created between lamp filaments and the IC.
In most situations the PCB is mounted horizontally into a lamp base, but since the
UBA2024AT is a SMD component this would mean the IC is very close to the lamp
filaments. The lamp filaments would directly radiate heat onto the IC. This would limit the
IC drive capabilities. It is recommended to either mount some form of heat shield in
between the lamp filaments and the PCB or to mount the PCB in vertically into the lamp
socket. This increases the distance between IC and lamp filaments.
Another solution is to mount the SMD components: CFS, CVDD, COSC, ROSC, CSW and the
UBA2024AT onto a separate PCB and mount this PCB perpendicular onto a horizontal
PCB under the lamp that contains all the leaded components. In this way the horizontal
PCB serves as a shield between the lamp filaments and the heat sensitive components on
the vertical PCB.
019aab162
Fig 8.
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Proposed board placement in a lamp for the UBA2024AT to reduce radiated heat
to the IC
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5. Examples of different lamp powers
5.1 8 W lamp
Table 3.
8 W lamp (7 W; 150 mA burner; suited for cold ignition; fO = 46 kHz)
Reference
Description
RFUS
Remarks
115 V; 60 Hz
230 V; 50 Hz
fusible inrush current limiter special type, fusible, high peak
resistor
power
10 
39 
D1, D2
voltage doubler diodes
1N4007
-
D1, D4
bridge rectifier diodes
-
1N4007
CBUF1,CBUF2
buffer capacitors
high temperature electrolytic type
10 F; 200 V
-
CBUF1
buffer capacitor
high temperature electrolytic type
-
3.3 F; 400 V
LFILT
filter inductor
axial type
2.7 mH; 200 mA
2.7 mH; 200 mA
CHB1, CHB1
half-bridge capacitors
47 nF; 400 V
47 nF; 400 V
CLA
lamp capacitor
high voltage polypropylene film type
capable of withstanding peak
voltages
1.5 nF; 800 V
1.5 nF; 800 V
LLA
lamp inductor
E20 core for lamp powers up to
23 W; Würth electronic type:
760370084 (see Section 6);
J1 = open; J2 = open; J3 = short
3.1 mH
3.1 mH
CDV
dV/dt limiting capacitor
220 pF; 500 V
220 pF; 500 V
CFS
floating supply buffer
capacitor
SMD: X7R type; leaded: PET type,
high temperature
10 nF; 50 V
10 nF; 50 V
CVDD
low voltage supply buffer
capacitor
SMD: X7R type; leaded: PET type,
high temperature
10 nF; 50 V
10 nF; 50 V
COSC
oscillator capacitor
SMD: NP0 type;
Leaded: C0G type, preferably high
accuracy value type
180 pF; 50 V; 2 % 180 pF; 50 V; 2 %
ROSC
oscillator resistor
Preferably E24 series high accuracy
value type
110 k; 1/8 W;
1%
110 k; 1/8 W; 1 %
CSW
sweep time capacitor
SMD: X7R type; leaded: PET type,
high temperature
68 nF; 50 V
68 nF; 50 V
5.2 11 W lamp
Table 4.
11 W lamp (9.5 W; 150 mA burner; suited for cold ignition; fO = 42.5 kHz)
Reference
Description
Remarks
115 V; 60 Hz
230 V; 50 Hz
RFUS
fusible inrush current
limiter resistor
special type, fusible, high peak power
8.2 
33 
D1, D2
voltage doubler diodes
1N4007
-
D1, D4
bridge rectifier diodes
-
1N4007
CBUF1,CBUF2
buffer capacitors
high temperature electrolytic type
15 F; 200 V
-
CBUF1
buffer capacitor
high temperature electrolytic type
-
4.7 F; 400 V
LFILT
filter inductor
axial type
CHB1, CHB1
half-bridge capacitors
UM10392
User manual
2.7 mH; 200 mA
2.7 mH; 200 mA
47 nF; 400 V
47 nF; 400 V
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UBA2024T SO14 13 W demo board
Table 4.
11 W lamp (9.5 W; 150 mA burner; suited for cold ignition; fO = 42.5 kHz) …continued
Reference
Description
Remarks
115 V; 60 Hz
230 V; 50 Hz
CLA
lamp capacitor
high voltage polypropylene film type
1.5 nF; 800 V
capable of withstanding peak voltages
1.5 nF; 800 V
LLA
lamp inductor
E20 core for lamp powers up to 23 W; 3.1 mH
Würth electronic type: 760370084
(see Section 6); J1 = open; J2 = open;
J3 = short
3.1 mH
CDV
dV/dt limiting capacitor
CFS
floating supply buffer
capacitor
220 pF; 500 V
220 pF; 500 V
SMD: X7R type; leaded: PET type,
high temperature
10 nF; 50 V
10 nF; 50 V
CVDD
low voltage supply buffer SMD: X7R type; leaded: PET type,
capacitor
high temperature
10 nF; 50 V
10 nF; 50 V
COSC
oscillator capacitor
SMD: NP0 type;
leaded: C0G type, preferably high
accuracy value type
180 pF; 50 V; 2 %
180 pF; 50 V; 2 %
ROSC
oscillator resistor
preferably E24 series high accuracy
value type
120 k; 1/8 W; 1 % 120 k; 1/8 W; 1 %
CSW
sweep time capacitor
SMD: X7R type; leaded: PET type,
high temperature
68 nF; 50 V
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68 nF; 50 V
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6. Inductor specification
4
3
5
2
6
1
14
22
21
dimensions in mm
760370084
WE-MIDCOM
3, 3.81
SQ. 0.64
10
5.08
3
Ø 1.57
6
5
recommended
P.C. pattern, component side
4
019aab080
Fig 9.
Inductor specification
Remark: The following electrical specifications are at 25 C unless otherwise specified.
6.1 D.C. RESISTANCE (at 20 C)
• 3 to 6: 4.75   20 %
• 6 to 5: 0.630   20 %
• 5 to 4: 0.465   20 %
6.2 INDUCTANCE
• 2.20 mH  10 %, 10 kHz, 100 m V (AC), 0 mA DC, 3 to 6, Ls
• 2.70 mH  15 %, 10 kHz, 100 m V (AC), 0 mA DC, 3 to 5, Ls
• 3.10 mH  15 %, 10 kHz, 100 m V (AC), 0 mA DC, 3 to 4, Ls
6.3 OPERATING TEMPERATURE RANGE
• 40 C to +125 C including temp rise
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7. Legal information
7.1
Definitions
Draft — The document is a draft version only. The content is still under
internal review and subject to formal approval, which may result in
modifications or additions. NXP Semiconductors does not give any
representations or warranties as to the accuracy or completeness of
information included herein and shall have no liability for the consequences of
use of such information.
7.2
Disclaimers
Limited warranty and liability — Information in this document is believed to
be accurate and reliable. However, NXP Semiconductors does not give any
representations or warranties, expressed or implied, as to the accuracy or
completeness of such information and shall have no liability for the
consequences of use of such information.
In no event shall NXP Semiconductors be liable for any indirect, incidental,
punitive, special or consequential damages (including - without limitation - lost
profits, lost savings, business interruption, costs related to the removal or
replacement of any products or rework charges) whether or not such
damages are based on tort (including negligence), warranty, breach of
contract or any other legal theory.
Notwithstanding any damages that customer might incur for any reason
whatsoever, NXP Semiconductors’ aggregate and cumulative liability towards
customer for the products described herein shall be limited in accordance
with the Terms and conditions of commercial sale of NXP Semiconductors.
Right to make changes — NXP Semiconductors reserves the right to make
changes to information published in this document, including without
limitation specifications and product descriptions, at any time and without
notice. This document supersedes and replaces all information supplied prior
to the publication hereof.
Suitability for use — NXP Semiconductors products are not designed,
authorized or warranted to be suitable for use in life support, life-critical or
safety-critical systems or equipment, nor in applications where failure or
malfunction of an NXP Semiconductors product can reasonably be expected
to result in personal injury, death or severe property or environmental
damage. NXP Semiconductors accepts no liability for inclusion and/or use of
NXP Semiconductors products in such equipment or applications and
therefore such inclusion and/or use is at the customer’s own risk.
Applications — Applications that are described herein for any of these
products are for illustrative purposes only. NXP Semiconductors makes no
representation or warranty that such applications will be suitable for the
specified use without further testing or modification.
Customers are responsible for the design and operation of their applications
and products using NXP Semiconductors products, and NXP Semiconductors
accepts no liability for any assistance with applications or customer product
design. It is customer’s sole responsibility to determine whether the NXP
Semiconductors product is suitable and fit for the customer’s applications and
products planned, as well as for the planned application and use of
customer’s third party customer(s). Customers should provide appropriate
design and operating safeguards to minimize the risks associated with their
applications and products.
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NXP Semiconductors does not accept any liability related to any default,
damage, costs or problem which is based on any weakness or default in the
customer’s applications or products, or the application or use by customer’s
third party customer(s). Customer is responsible for doing all necessary
testing for the customer’s applications and products using NXP
Semiconductors products in order to avoid a default of the applications and
the products or of the application or use by customer’s third party
customer(s). NXP does not accept any liability in this respect.
Safety of high-voltage evaluation products — The non-insulated high
voltages that are present when operating this product, constitute a risk of
electric shock, personal injury, death and/or ignition of fire. This product is
intended for evaluation purposes only. It shall be operated in a designated
test area by personnel that is qualified according to local requirements and
labor laws to work with non-insulated mains voltages and high-voltage
circuits.
The product does not comply with IEC 60950 based national or regional
safety standards. NXP Semiconductors does not accept any liability for
damages incurred due to inappropriate use of this product or related to
non-insulated high voltages. Any use of this product is at customer’s own risk
and liability. The customer shall fully indemnify and hold harmless NXP
Semiconductors from any liability, damages and claims resulting from the use
of the product.
Export control — This document as well as the item(s) described herein
may be subject to export control regulations. Export might require a prior
authorization from national authorities.
Evaluation products — This product is provided on an “as is” and “with all
faults” basis for evaluation purposes only. NXP Semiconductors, its affiliates
and their suppliers expressly disclaim all warranties, whether express, implied
or statutory, including but not limited to the implied warranties of
non-infringement, merchantability and fitness for a particular purpose. The
entire risk as to the quality, or arising out of the use or performance, of this
product remains with customer.
In no event shall NXP Semiconductors, its affiliates or their suppliers be liable
to customer for any special, indirect, consequential, punitive or incidental
damages (including without limitation damages for loss of business, business
interruption, loss of use, loss of data or information, and the like) arising out
the use of or inability to use the product, whether or not based on tort
(including negligence), strict liability, breach of contract, breach of warranty or
any other theory, even if advised of the possibility of such damages.
Notwithstanding any damages that customer might incur for any reason
whatsoever (including without limitation, all damages referenced above and
all direct or general damages), the entire liability of NXP Semiconductors, its
affiliates and their suppliers and customer’s exclusive remedy for all of the
foregoing shall be limited to actual damages incurred by customer based on
reasonable reliance up to the greater of the amount actually paid by customer
for the product or five dollars (US$5.00). The foregoing limitations, exclusions
and disclaimers shall apply to the maximum extent permitted by applicable
law, even if any remedy fails of its essential purpose.
7.3
Trademarks
Notice: All referenced brands, product names, service names and trademarks
are the property of their respective owners.
All information provided in this document is subject to legal disclaimers.
Rev. 3 — 25 January 2011
© NXP B.V. 2011. All rights reserved.
14 of 15
UM10392
NXP Semiconductors
UBA2024T SO14 13 W demo board
8. Contents
1
1.1
1.2
2
3
3.1
3.2
3.3
4
5
5.1
5.2
6
6.1
6.2
6.3
7
7.1
7.2
7.3
8
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Safety warning . . . . . . . . . . . . . . . . . . . . . . . . . 3
General description . . . . . . . . . . . . . . . . . . . . . 3
Schematic diagram . . . . . . . . . . . . . . . . . . . . . . 5
Specification. . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Board connections . . . . . . . . . . . . . . . . . . . . . . 7
Lamp inductor selection . . . . . . . . . . . . . . . . . . 8
Bill of material 13 W lamp . . . . . . . . . . . . . . . . . 9
Thermal considerations SO package. . . . . . . 10
Examples of different lamp powers . . . . . . . . 11
8 W lamp . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
11 W lamp. . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Inductor specification . . . . . . . . . . . . . . . . . . . 13
D.C. RESISTANCE (at 20 ×C) . . . . . . . . . . . . 13
INDUCTANCE . . . . . . . . . . . . . . . . . . . . . . . . 13
OPERATING TEMPERATURE RANGE . . . . . 13
Legal information. . . . . . . . . . . . . . . . . . . . . . . 14
Definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Disclaimers . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Trademarks. . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Please be aware that important notices concerning this document and the product(s)
described herein, have been included in section ‘Legal information’.
© NXP B.V. 2011.
All rights reserved.
For more information, please visit: http://www.nxp.com
For sales office addresses, please send an email to: [email protected]
Date of release: 25 January 2011
Document identifier: UM10392