TRACOPOWER TSI20N

a t iv e
T ent
High Effiency DC /DC Converter
20 Watt
TSI-20N Series
TSI-20N series is a small size (33×21.5×6mm size) and light weight ( g) step-down DC-DC converter with 20W.
Since it can operate from ultra low output voltage of 0.8V, it can be used for latest DSP, ASIC applications. High efficiency,
ulra high-speed response by synchronous rectification topology. No external components required.
Input: +3.3V/+5.0V
Output: +1.8V, +2.0V, +2.5V, +3.3V (+0.8V ~ +3.6V)
Features
- High-speed response
- Non-Isolated Type Converter
- Ultra high Efficiency 93%
- Amazing Minimum Size
- ON/OFF Control
- Operating Temp. -40°C~+85°C
- Adjustable Output
- No Heat Sink required
- Latest Power-IC adopted
- High Reliability, High Performance
- Synchronous Rectification Circuit
- Additional external capacitor not required
- Short-Circuit, Over-Current Protection
Model
Standard Input Input Voltage
Output
Output
Non-Load
Ripple &
Efficiency
Package
Voltage
Range
Voltage
Current
Current
Noise
Vdc
Vdc~Vdc
Vdc
A
mA(typ)
mVpp(typ)
%(typ)
type
SIP
6
3
40
93
DIP
TSI 20N-0510V
TSI 20N-0510D
5.0
+3.0~5.5 (*1) +3.3(0.8~3.6)
TSI 20N-0510S
SMD
(*1) Input Voltage should be 0.5V or more higher than output voltage.
Specification
Standard Output Voltage
When Vadj pin is open, output voltage will be set at +3.3V. (The accuracy of output V setting is ±3% max.)
Adjustable Output V Rang Output Voltage is adjustable according to the range above.
Line Reg.
0.7%typ. 1.5%max. (For the regulation of Input Voltage Range 3.8~5.5V)
Load Reg.
2.0%typ. 4.0%max. (For 0~6A of Load Reg., at Rating Input.
Temp. Coefficient
±0.02%/°C typ. (For the change of Operating Temp. -10°C~+50°C)
Ripple & Noise
120mVpp max. (Rating Input, Rating Output, Room Temp.) (Measurements Frequency Band Width 20MHz)
Efficiency
93% (Rating Input/ Output, Room Temp., Refer Table 1)
Over-Current Protection
Operates at 105% or moreRating Load Current, auto recovery type. Avoid long time of short-circuit condition.
Over-Voltage Protection
None
Standby Current
2.4mA typ.
Remote ON/OFF
Between 1pin(ON/OFF) 5~8pin(S.GND) [Open: Output ON, Short: Output OFF(Refer to application)]
Remote Sensing
The voltage between converter's output pin voltage between 7-8pin and sensing voltage difference
[voltage between 6-9pin] is 10% of sensing voltage (0.1V~0.3V) or below.
Operating Temp. Range
Operating Temp. -40°C~+85°C (Refer to the thermal derating graph.)
Storage Temp. Range
Storage Temp. -40°C~+85°C
Humidity Range
20% ~ 95%R.Hmax. (Max. Wet-bulb Temp. 35°C, non-condensing)
Cooling Condition
Refer to the thermal derating graph
Vibration
5~10Hz Every amplitude 10mm (3directions, each for 1hour), 10~55Hz acceleration 2G (3directions, each for 1hour)
Weight
4g typ.
External Dimensions
SIP type W=24 L=33 H=5.0 typ. (mm ) (For dimensions refer to outline.)
DIP type W=22.25 L=33 H=6.0 typ. (mm ) (For dimensions refer to outline.)
SMD type W=23.9 L=33 H=6.0 typ. (mm ) (For dimensions refer to outline.)
* The above specification will be provided at rating value, when there is no specified condition described.
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T e n ta
tiv e
TSI 20N Series
1. TSI 20N-0510V (SIP type)
5.0m ax
33m ax
1
12
0.5
3.0typ
on/off
2
Vin
3
Vin
Vin
5
GND
6
GND
7
GND
8
GND
9
Vout
- Dimensions: mm
10
Vout
- Dimension difference with
11
Vout
12
V.ADJ
Pin
Function
0.25
P2.54×11=27.94
Function
1
4
24max
3.5±1.5
21.5(+1,-0.5)
0.8
1.0typ
Pin
nothing specified ±0.5
2. TSI 20N-0510D (DIP type)
33m ax
C/L
13
0.25
12
6.0max
1
22.25±0.6
21.5(+1,-0.5)
24
3.5±1.5
0.5
P2.54×11=27.94
Pin
Function
1
on/off
11
Vout
2
Vin
12
V.ADJ
3
Vin
13
NC
4
Vin
14
+S
5
GND
15
-S
6
GND
22
NC
7
GND
23
P-Good
8
GND
24
NC
Function
9
Vout
10
Vout
Pin
Function
Pin
1
on/off
11
Vout
2
Vin
12
V.ADJ
3
Vin
13
NC
4
Vin
14
+S
4
Vin
15
-S
5
GND
22
NC
6
GND
23
P-Good
7
GND
24
NC
8
GND
24
NC
8
GND
9
Vout
10
Vout
- Dimensions: mm
- Dimension difference with
nothing specified ±0.5
3. TSI 20N-0510S (SMD type)
33m ax
C/L
13
23.9 ±0.8
21.5(+ 1,-0.5 )
24
A
12
Detailed figure of
com ponent
0.5
0 ~ 10°
A
0.25
6.0m ax
1
(1.2)
P2.54×11=27.94
- Dimensions: mm
- Dimension difference with
nothing specified ±0.5
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T e n ta
tiv e
TSI 20N Series
Standard Connection Circuit Diagram
V out
V out
V in
TSI20N
BSV
Series
S eries
V in
C1
+S
R1
V adj
on/off
GND
Load
C2
R2
-S
SW
O pen = O n
S hort= O ff
Figure 6
R 1:V out D own s etted res istor
R 2:V out U P setted resis tor
Note 1: When not using the ON/OFF control, keep ON/OFF pin open.
Note 2: When not adjusting output, keep V.ADJ pin open.
Note 3: When it includes inductance in input line or switch ing element is connected to the input side or the wire is long,
to fulfill the performance C1 will be required. Also to lower the input impedance we recommend a pattern that has an
additional C1, and to verify on a actual equipment. Or, by adding C2 you can lower the output ripple more.
Recommended Capacitor
C1=33 µF10WV
C2=2.2 µF~22µF
C2: An output capacitor is built-in so it is not required, however by connecting 2.2 µF~22 µF you can lower the noise more
Note 4: There is no +S, Pin in TSI 20N-0510V SIP type.
Method of Adjusting Output Voltage
When using at 3.3V without adjusting output voltage, keep V.ADJ pin (12Pin) open.
By connecting a resistor between +Vout pin (9~11Pin)~V.ADJ pin (12Pin), you can adjust the output voltage in the range of 0.8~3.3V.
(Vout Down Control)
By connecting a resistor between Vadj pin (12Pin)~GND pin (5~8Pin), you can adjust the output voltage in the range of 3.3V~3.6V.
(Vout Up Control)
To calculate external resistance, please refer to the equation below. After calculating external resistance, please check output voltage
and adjust resistance value.
To set in the range of 0.8V~3.3V
9,10 ,1 1
+V ou t
BSV
S eries
Rx
Rz
12
R1
Lo ad
-Rz
Rx × Ry × Vs
R2= Ry (Vo-Vs) -Rx × Vs
-Rz
Ry
R2
5,6,7,8
Rx × Ry (Vo-Vs)
Rx × Vs-Ry (Vo-Vs)
To set in the range of 3.3V~3.6V
V .AD J
Vs
R1=
Vo= Requested output V Adjustable voltage range=0.8~3.6V
Rx=10.2k ohm
Ry=2.7k ohm
GND
Rz=0.1K ohm
Figure 7
Vs=0.703V
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a t iv e
T ent
TSI 20N Series
Remote ON/OFF Control
- ON/OFF Function
By using this ON/OFF control function, the output can be ON/OFF controlled without intermitting input.
This is an effective function when composing a power supply system sequence. And this can also be used as a power standby function for
saving power control.
TSI20N
B SV
Series
S eries
- Not using ON/OFF Function
To not use the ON/OFF function, keep ON/OFF pin open.
1
- Method of ON/OFF Control
Between ON/OFF pin (1Pin ) and S.GND (5~8Pin)
Open ---- Output=ON
Short ---- Output=OFF (0~0.7V 1•A max.)
5,6,7,8
G ND
E xam ple
on/off
or
To prevent reverse connection of Input Power Supply (ex.)
FUS E
+V in
+V out
9,10,11
2,3,4
This prodcut is a non-isolated type DC-DC converter that steps-down
from (+) to (+).
If you connect the input voltage reversed by mistake,
on/off
+Vin
D1
TSI20N
B SV
S eries
Series
1
V .A D J
12
Load
it will be damaged.
5,6,7,8
If there is a possibility of reverse connection, please
add a protection as the right figure.
GND
The right figure is an example using huse and diode.
Over-Voltage Protection (ex.)
FUS E
This product does not have a built-in over-voltage protection.
+V in
9 ,1 0,11
2 ,3 ,4
+V out
If the switching element in this converter is damaged in short mode
input voltage +Vin will be output as is.
However, to prepare for damage at over-voltage mode, we recommend to
add a circuit to intercept the supplying power circuit.
SCR
o n/off
+ V in
1
TSI20N
BSV
Series
S eries
V .A D J
12
O verV oltage
detec tion
circuit
L oa d
5 ,6 ,7 ,8
Note1: When it is damaged at over-voltage mode, ON/OFF control does
not operate.
G ND
Note2: When there is a ON/OFF function on the supplying power side,
this may be used.
Note 3: Be sure that the DC power supply on the supplying side has
the capacity to fuse the fuse.
Soldering Conditions
Solder under the following conditions.
340°C~360°C within 3sec.
2. With soldering dip
240°C~260°C within 10sec.
3. Reflow method (only for SMD type)
Temp.
M ain
heating
1. With soldering iron
P reheating
Preheating Temp.: 150±10°C, within 1min.
Main heating temp.: 235°Cmax. 10sec max.
Reflowing frequency: once
T im e
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TSI 20N Series
Block Diagram
V in
4
V in
3
V in
2
V o ut
9
V o ut
10
V o ut
11
P O W E R @ IC
L1
+S
14
c on trol
C1
Rz
VFB+
VFB-
P-Good
ON/OFF
C2
Rx
Ry
G ND
5
G ND
6
O N /O F F
1
P -G o od
23
V .A D J
12
G ND
7
G ND
6
-S
15
* There is no P-Good, +S, -S pin inTSI 20-0510S (SIP type).
Thermal Derating
Please set this product in a place with good circulation.
And when using this product in an environment that ambient temp. is 40°C or more, please refer to the thermal derating below.
1 .5m /s
1 00
90
L oa d C u rre nt D eratin g ra te (% )
0 .5m /s
80
0 m/s
70
60
50
40
30
20
10
0
-40 -30 -20 -10
0
10
20
30
40
50
60
70
80 85
Am bien t Te m p. (°C )
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a ti v e
T ent
TSI 20N Series
Method to decrease noise
Usually TSI 20N series is used adding an input/output capacitor,
and making the most of the converter's performance and to decrease
the noise more, consider the following items when designing the
M a k e th e lo o p sp a c e s ma ll
print board.
+ V in
1. Use low impedance capacitor which has good high frequency
+V out
M a k e th e lo o p sp a c e s ma ll
+ V in
TSI20N
characteristic.
lead inductance.
3. Make the wiring loop space small between the (+) and (-) of both input
-V in
Load
C1
GND
M a k e th e le a d sh o rt
and output pin side as much as possible. You can decrease the effect
+ V o ut
BSV
Series
Series
+ V in
2. Shorten lead of each capacitor as much as possible, and make it low
C2
M a k e th e le a d sh o rt
of leakage inductance.
4. Design the print pattern of the main circuit thick and short as much as
possible.
Precautions
Reliability Test
- For this product parallel/ series operation is not possible.
- For mounting this product, please do not use connector or socket. The
Test Items
Test Conditions
performance may not be fulfilled by the effect of contacting resistor.
Low-temp. storage
-40°C 1000hrs. Leave without energizing
Mount to print board by soldering.
High-temp. storage
+85°C 1000hrs. Leave without energizing
Heat shock
-40°C~+125°C 30min. Each 100cycle
- This product has a built-in over-current, short protection, but
long time of short circuit will cause failure, so please avoid that.
- May not be used in a use of that would affect lives or properties
directly by the failure of this product. Please confrim before adopting.
- Product can not be used under oscillation, strike or temp. condition
that are out of the specification. Contact for any questions.
High-temp. Load
+85°C 1000hrs. Rating input, output 3.3V (3A)
Withstand humidity load
+40°C 90~9%RH 1000hrs. Leave at rating input/ output
Withstand flux
Leave in IPA for 5min.
Solder withstand heat
260°C±5°C 10sec. And 350°C±10°C for 3sec.
Oscillation
5~10Hz Every amplitude 10mm,
- There is possibility of damage from static. When the worker has
electrified static, electrical discharge by grounding, and recommend
10^55Hz Acceleration 2G (3directions, each for 1 hour)
Striking
- This product does not have a built-in fuse. Connect a huse to the
Acceleration 20G (3directions, 3times each),
Striking time 11±6ms
working on a table grounded.
Evaluation
+input line for protection when over-current flows into input at
Should be nothing extraordinary in electrilcal characteristics and appearance
abnormal. Please be sure that the supplying power has the capacity
before or after the test.
to cut the fuse.
- This product does not have a built-in over-voltage protection. When
over-voltage occurs by the abnormality in the module there is a mode
that input voltage comes out at output as it is, and this may cause
smoke and ignition. To prevent this, be sure to add over-voltage protection.
- There is no test result report attached for this product.
Jenatschstrasse 1 • CH-8002 Zurich • Switzerland
Tel. +41-1284 2911 • Fax +41-1201 1168 • e-mail: sales @ traco.ch • internet: http://www.tracopower.com
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