BOURNS TBU-CA025-050

PL
IA
NT
CO
M
*R
oH
S
A
E075050
5
Features
Applications
■ Superior circuit protection
■ Voice / VDSL cards
■ Overcurrent and overvoltage protection
■ Protection modules and dongles
■ Blocks surges up to rated limits
■ Process control equipment
■ High-speed performance
■ Test and measurement equipment
■ Small SMT package
■ General electronics
■ Agency recognition:
TBU-CA Series - TBU® High-Speed Protectors
General Information
Agency Approval
Line In/
The TBU-CA Series of Bourns® TBU®
Line Out
products are low capacitance single
bidirectional high-speed protection
components, constructed using MOSFET
semiconductor technology, and designed
to protect against faults caused by short
circuits, AC power cross, induction and lightning surges.
Line Out/
Line In
Description
UL
File Number: E315805
TBU® Device
The TBU® high-speed protector placed in the system circuit will monitor the current
with the MOSFET detection circuit triggering to provide an effective barrier behind
which sensitive electronics will not be exposed to large voltages or currents during
surge events. The TBU® device is provided in a surface mount DFN package and
meets industry standard requirements such as RoHS and Pb Free solder reflow profiles.
Absolute Maximum Ratings (@ TA = 25 °C Unless Otherwise Noted)
Symbol
Value
Unit
Peak impulse voltage withstand with duration less than 10 ms
TBU-CA025-xxx-WH
TBU-CA040-xxx-WH
TBU-CA050-xxx-WH
TBU-CA065-xxx-WH
TBU-CA085-xxx-WH
250
400
500
650
850
V
Vrms
Continuous A.C. RMS voltage
TBU-CA025-xxx-WH
TBU-CA040-xxx-WH
TBU-CA050-xxx-WH
TBU-CA065-xxx-WH
TBU-CA085-xxx-WH
100
200
250
300
425
V
Vimp
Parameter
Part Number
Top
Operating temperature range
-40 to +125
°C
Tstg
Storage temperature range
-65 to +150
°C
Tjmax
Maximum Junction Temperature
ESD
HBM ESD protection per IEC 61000-4-2
Asia-Pacific: Tel: +886-2 2562-4117 • Fax: +886-2 2562-4116
Europe: Tel: +41-41 768 5555 • Fax: +41-41 768 5510
The Americas: Tel: +1-951 781-5500 • Fax: +1-951 781-5700
www.bourns.com
*RoHS Directive 2002/95/EC Jan 27, 2003 including Annex.
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
+125
°C
±2
kV
TBU-CA Series - TBU® High-Speed Protectors
Electrical Characteristics (@ TA = 25 °C Unless Otherwise Noted)
Symbol
Itrigger
Rdevice
Parameter
Part Number
Min.
Typ.
Max.
Unit
Current required for the device to go from operating state to
protected state
TBU-CAxxx-050-WH
TBU-CAxxx-100-WH
TBU-CAxxx-200-WH
TBU-CAxxx-300-WH
TBU-CAxxx-500-WH
50
100
200
300
500
75
150
300
450
750
100
200
400
600
1000
mA
Series resistance of
the TBU device
Vimp = 250 V
Vimp = 250 V
Vimp = 250 V
Vimp = 250 V
Vimp = 250 V
Itrigger (min.) = 50 mA
Itrigger (min.) = 100 mA
Itrigger (min.) = 200 mA
Itrigger (min.) = 300 mA
Itrigger (min.) = 500 mA
TBU-CA025-050-WH
TBU-CA025-100-WH
TBU-CA025-200-WH
TBU-CA025-300-WH
TBU-CA025-500-WH
13.3
7.1
4.2
3.2
2.6
15.3
8.2
4.8
3.8
3.0
Vimp = 400 V
Vimp = 400 V
Vimp = 400 V
Vimp = 400 V
Vimp = 400 V
Itrigger (min.) = 50 mA
Itrigger (min.) = 100 mA
Itrigger (min.) = 200 mA
Itrigger (min.) = 300 mA
Itrigger (min.) = 500 mA
TBU-CA040-050-WH
TBU-CA040-100-WH
TBU-CA040-200-WH
TBU-CA040-300-WH
TBU-CA040-500-WH
14.3
8.1
5.2
4.3
3.6
16.5
9.4
6.0
5.0
4.2
Vimp = 500 V
Vimp = 500 V
Vimp = 500 V
Vimp = 500 V
Vimp = 500 V
Itrigger (min.) = 50 mA
Itrigger (min.) = 100 mA
Itrigger (min.) = 200 mA
Itrigger (min.) = 300 mA
Itrigger (min.) = 500 mA
TBU-CA050-050-WH
TBU-CA050-100-WH
TBU-CA050-200-WH
TBU-CA050-300-WH
TBU-CA050-500-WH
15.7
9.5
6.6
5.6
5.0
18.0
10.9
7.5
6.5
5.7
Vimp = 650 V
Vimp = 650 V
Vimp = 650 V
Vimp = 650 V
Vimp = 650 V
Itrigger (min.) = 50 mA
Itrigger (min.) = 100 mA
Itrigger (min.) = 200 mA
Itrigger (min.) = 300 mA
Itrigger (min.) = 500 mA
TBU-CA065-050-WH
TBU-CA065-100-WH
TBU-CA065-200-WH
TBU-CA065-300-WH
TBU-CA065-500-WH
17.7
11.5
8.6
7.6
7.0
20.3
13.2
9.8
8.8
8.0
Vimp = 850 V
Vimp = 850 V
Vimp = 850 V
Vimp = 850 V
Vimp = 850 V
Itrigger (min.) = 50 mA
Itrigger (min.) = 100 mA
Itrigger (min.) = 200 mA
Itrigger (min.) = 300 mA
Itrigger (min.) = 500 mA
TBU-CA085-050-WH
TBU-CA085-100-WH
TBU-CA085-200-WH
TBU-CA085-300-WH
TBU-CA085-500-WH
21.4
15.2
12.3
11.3
10.7
24.5
17.4
14.0
13.0
12.2
1
µs
0.25
0.50
1.00
mA
12
16
20
Ω
tblock
Time for the device to go from normal operating state to protected state
IQ
Current through the triggered TBU® device with 50 Vdc circuit voltage
Vreset
Voltage below which the triggered TBU® device will transition to normal operating state
Rth(j-l)
Junction to package pads - FR4 using recommended pad layout
98
°C/W
Rth(j-l)
Junction to package pads - FR4 using heat sink on board (6 cm2) (1 in2)
40
°C/W
V
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
TBU-CA Series - TBU® High-Speed Protectors
Reference Application
Basic TBU Operation
®
The TBU devices are general use protectors used in a wide
variety of applications. The maximum voltage rating of the TBU®
device should never be exceeded. Where necessary, an OVP
should be employed to limit the maximum voltage. A costeffective protection solution combines Bourns® TBU® protection
devices with a pair of Bourns® MOVs. For bandwidth sensitive
applications, a Bourns® GDT may be substituted for the MOV.
Line In /
Line Out
Line Out
/ Line In
Line
TBU TM
Device
OVP
TBU TM
Device
OVP
Equip.
Line In /
Line Out
Line Out
/ Line In
Line
The TBU® device, constructed using MOSFET semiconductor
technology, placed in the system circuit will monitor the
current with the MOSFET detection circuit triggering to provide
an effective barrier behind which sensitive electronics are not
exposed to large voltages or currents during surge events. The
TBU® device operates in approximately 1 µs - once line
current exceeds the TBU® device’s trigger current Itrigger.
When operated, the TBU® device restricts line current to less
than 1 mA typically. When operated, the TBU® device will
block all voltages including the surge up to rated limits.
After the surge, the TBU® device resets when the voltage
across the TBU® device falls to the Vreset level. The TBU®
device will automatically reset on lines which have no DC bias
or have DC bias below Vreset (such as unpowered signal lines).
If the line has a normal DC bias above Vreset, the voltage
across the TBU® device may not fall below Vreset after the
surge. In such cases, special care needs to be taken to ensure
that the TBU® device will reset, with software monitoring as
one method used to accomplish this. Bourns application
engineers can provide further assistance.
Performance Graphs
Typical V-I Characteristics (TBU-CA050-300-WH)
Typical Trigger Current vs. Temperature
1.8
Normalized Trigger Current
ITRIP
CURRENT
(100 mA/div)
VRESET
VOLTAGE
(5 V/div)
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
-75 -50 -25
0
25
50
75 100 125 150
Junction Temperature (°C)
Power Derating Curve
Typical Resistance vs. Temperature
2.2
3.0
No Additional PCB Cu
0.5 sq. in. Additional PCB Cu
2.0
1.8
Normalized Resistance
Total Max. Power (W)
2.5
2.0
1.5
1.0
0.5
0.0
20
40
60
80
100
120
140
Ambient Temperature (°C)
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
-75 -50 -25
0
25
50
75 100 125 150
Junction Temperature (°C)
TBU-CA Series - TBU® High-Speed Protectors
Product Dimensions
0.70
(.028)
0.80
(.031)
0.70
(.028)
1.85
(.073)
6.50 ± 0.10
(.256 ± .004)
0.85 ± 0.05
(.033 ± .002)
0.30
(.012)
4.00 ± 0.10
(.157 ± .004)
1.85
(.073)
3.40
(.134)
0.30
(.012)
PIN 1 & BACKSIDE CHAMFER
0.00 - 0.05
(.000 - .002)
DIMENSIONS:
MM
(INCHES)
C
0.25
PIN 1
(.010)
Pad Designation
Pad #
Pin Out
1
Line In/Out
2
NU
3
Line Out/In
Recommended Pad Layout
TBU® High-Speed Protectors have a 100 % matte-tin termination
finish. For improved thermal dissipation, the recommended layout
uses PCB copper areas which extend beyond the exposed solder
pad. The exposed solder pads should be defined by a solder mask
which matches the pad layout of the TBU® device in size and
spacing. It is recommended that they should be the same dimension as the TBU® pads but if smaller solder pads are used, they
should be centered on the TBU® package terminal pads and not
more than 0.10-0.12 mm (0.004-0.005 in.) smaller in overall width
or length. Solder pad areas should not be larger than the TBU® pad
sizes to ensure adequate clearance is maintained. The recommended stencil thickness is 0.10-0.12 mm (0.004-0.005 in.) with a
stencil opening size 0.025 mm (0.0010 in.) less than the solder pad
size. Extended copper areas beyond the solder pad significantly
improve the junction to ambient thermal resistance, resulting in
operation at lower junction temperatures with a corresponding
benefit of reliability. All pads should soldered to the PCB, including pads marked as NC or NU but no electrical connection should
be made to these pads. For minimum parasitic capacitance, it is
recommended that signal, ground or power signals are not routed
beneath any pad.
3
2
1
Dark grey areas show added PCB copper area for better
thermal resistance.
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
TBU-CA Series - TBU® High-Speed Protectors
Reflow Profile
Profile Feature
Pb-Free Assembly
Average Ramp-Up Rate (Tsmax to Tp)
3 °C/sec. max.
Preheat
- Temperature Min. (Tsmin)
- Temperature Max. (Tsmax)
- Time (tsmin to tsmax)
150 °C
200 °C
60-180 sec.
Time maintained above:
- Temperature (TL)
- Time (tL)
217 °C
60-150 sec.
Peak/Classification Temperature (Tp)
260 °C
Time within 5 °C of Actual Peak Temp. (tp)
20-40 sec.
Ramp-Down Rate
6 °C/sec. max.
Time 25 °C to Peak Temperature
8 min. max.
How to Order
Typical Part Marking
TBU - CA 085 - 500 - WH
MANUFACTURER’S
TRADEMARK
®
TBU Product
PRODUCT CODE
- 1ST DIGIT INDICATES PRODUCT FAMILY:
A = TBU-CA SERIES
- 2ND & 3RD DIGITS INDICATE IMPULSE VOLTAGE:
25 = 250 V
40 = 400 V
50 = 500 V
65 = 650 V
85 = 850 V
Series
CA = Bi-Series
Impulse Voltage Rating
025 = 250 V
040 = 400 V
050 = 500 V
065 = 650 V
085 = 850 V
Trigger Current
050 = 50 mA
100 = 100 mA
200 = 200 mA
300 = 300 mA
500 = 500 mA
- 4TH & 5TH DIGITS INDICATE TRIGGER CURRENT:
05 = 50 mA
10 = 100 mA 20 = 200 mA
30 = 300 mA
50 = 500 mA
PIN 1
MANUFACTURING
DATE CODE
- 1ST DIGIT INDICATES THE YEAR’S 6-MONTH PERIOD.
- 2ND DIGIT INDICATES THE WEEK NUMBER IN THE 6-MONTH PERIOD.
- 3RD & 4TH DIGITS INDICATE SPECIFIC LOT FOR THE WEEK.
6-MONTH PERIOD CODES:
A = JAN-JUN 2009
C = JAN-JUN 2010
B = JUL-DEC 2009
D = JUL-DEC 2010
E = JAN-JUN 2011
F = JUL-DEC 2011
Hold to Trip Ratio Suffix
W = Hold to Trip Ratio
Package Suffix
H = DFN Package
Thermal Resistance vs Additional PCB Cu Area
Thermal Resistance (°C/W)
120
100
80
60
40
20
0
0
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
0.2
0.4
0.6
0.8
1.0
1.2
1.4
Added Cu Area (Sq. In.)
1.6
1.8
2.0
TBU-CA Series - TBU® High-Speed Protectors
Packaging Specifications
P0
E
D
t
B
P2
TOP
COVER
TAPE
A
N
F
W
C
D
B0
K0
CENTER
LINES OF
CAVITY
A0
P
D1
EMBOSSMENT
G (MEASURED AT HUB)
USER DIRECTION OF FEED
QUANTITY: 3000 PIECES PER REEL
A
Min.
326
(12.835)
B
Max.
330
(13.002)
Min.
1.5
(.059)
A0
Min.
4.3
(.169)
B0
Max.
4.5
(.177)
Min.
6.7
(.264)
Max.
1.2
(.047)
Min.
7.9
(.311)
K0
Min.
1.0
(.039)
C
Max.
2.5
(.098)
Min.
12.8
(.504)
D
Max.
13.5
(.531)
D
Max.
6.9
(.272)
Min.
1.5
(.059)
Max.
8.1
(.319)
Min.
3.9
(.159)
P
Min.
20.2
(.795)
-
D1
Max.
1.6
(.063)
Min.
1.5
(.059)
Max.
4.1
(.161)
Min.
1.9
(.075)
P0
G
Ref.
16.5
(.650)
Max.
E
Max.
-
Min.
1.65
(.065)
P2
F
Max.
1.85
(.073)
Min.
7.4
(.291)
Max.
0.35
(.014)
Min.
15.7
(.618)
t
Max.
2.1
(.083)
Min.
0.25
(.010)
N
Ref.
102
(4.016)
max.
7.6
(.299)
W
DIMENSIONS:
Max.
16.3
(.642)
MM
(INCHES)
REV. 07/11
“TBU” is a registered trademark of Bourns, Inc. in the U.S., Taiwan and European Community.
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.