EVBUM2235/D - 1097 KB

NCV890103GEVB
NCV890103 Evaluation
Board User'sManual
Description
The NCV890103 is a fixed-frequency, monolithic, Buck
switching
regulator
intended
for
Automotive,
battery-connected applications that must operate with up to
a 36 V input supply. The regulator is suitable for systems
with low noise and small form factor requirements often
encountered in automotive driver information systems.
The NCV890103 is capable of converting the typical 4.5 V
to 18 V automotive input voltage range to outputs as low as
3.3 V at a constant switching frequency above the sensitive
AM band, eliminating the need for costly filters and EMI
countermeasures. A Reset pin signals when the output is in
regulation, and a pin is provided to adjust the delay before
the RSTB signal goes high. The NCV890103 also provides
several protection features expected in Automotive power
supply systems such as current limit, short circuit protection,
and thermal shutdown. In addition, the high switching
frequency produces low output voltage ripple even when
using small inductor values and an all-ceramic output filter
capacitor − forming a space-efficient switching regulator
solution.
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EVAL BOARD USER’S MANUAL
Key Features
•
•
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•
•
•
•
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Internal N-channel Power Switch
Low VIN Operation Down to 4.5 V
High VIN Operation to 36 V
Withstands Load Dump to 40 V
2 MHz Free-running Switching Frequency
Reset with Adjustable Delay
Logic level Enable Input Can be Directly Tied to
Battery
1.4 A (min) Cycle-by-Cycle Peak Current Limit
Short Circuit Protection enhanced by Frequency
Foldback
±1.75% Output Voltage Tolerance
Output Voltage Adjustable Down to 0.8 V
1.4 Millisecond Internal Soft-Start
Thermal Shutdown (TSD)
Low Shutdown Current
NCV Prefix for Automotive and Other Applications
Requiring Unique Site and Control Change
Requirements; AEC−Q100 Qualified and PPAP
Capable
Wettable Flanks DFN (Pin Edge Plating)
These Devices are Pb-Free and are RoHS Compliant
Typical Applications
• Audio, Infotainment, Safety – Vision Systems,
Instrumentation
Figure 1. NCV890103 Evaluation Board
© Semiconductor Components Industries, LLC, 2014
April, 2014 − Rev. 0
1
Publication Order Number:
EVBUM2235/D
NCV890103GEVB
CDRV
VIN
VIN
DBST
SW
L1
VOUT
DFW
3V
Reg
CIN
CBST
COUT
DRV
BST
VOUT
PWM
LOGIC
ON
OFF
RSTB
DELAY
+
GND
+
CDELAY
+
−
Reset
Delay
FB
+
−
RSTB
Oscillator
COMP
Clamp
+
TSD
Soft−Start
RESET
COMP
Voltages
Monitors
RCOMP
+
−
Enable
EN
+
CCOMP
Figure 2. NCV890103 Block Diagram
TYPICAL APPLICATION
CDRV
DBST
NCV890103
L1
VIN
1 VIN
SW 10
CBST
CIN
2 DRV
DFW
BST 9
RFB1
DELAY
RSTB
3 RSTB
VOUT
COUT
DELAY 8
CDELAY
4 GND
FB 7
EN
5 EN
COMP 6
RFB2
RCOMP
CCOMP
Figure 3. NCV890103 Typical Application
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NCV890103GEVB
Table 1. EVALUATION BOARD TERMINALS
Pin Name
Function
VIN
Positive dc Input Voltage
GND
Common dc Return
VOUT
Positive dc Output Voltage
EN
RSTB
Master Enable Input
Reset with Adjustable Delay
Table 2. ABSOLUTE MAXIMUM RATINGS (Voltages are with respect to GND)
Rating
Dc Supply Voltage (VIN, EN)
Dc Supply Voltage (RSTB)
Storage Temperature Range
Value
Unit
−0.3 to 40
V
−0.3 to 6
V
−55 to +150
°C
Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality
should not be assumed, damage may occur and reliability may be affected.
Table 3. ELECTRICAL CHARACTERSITICS
Characteristic
Conditions
Typical Value
Unit
5.0
V
REGULATION
Output Voltage (VOUT)
Line Regulation (VOUT)
IOUT = 1.0 A
0.1
%
Load Regulation (VOUT)
VIN = 13.2 V
0.1
%
Switching Frequency
2.0
MHz
Soft-start Time
1.4
ms
EN = 5 V
2.35
A
VIN Decreasing
3.4
V
TJ Rising
170
°C
SWITCHING
CURRENT LIMIT
Peak Current Limit (VOUT)
PROTECTIONS
Input Undervoltage Lockout (UVLO)
Thermal Shutdown
Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product
performance may not be indicated by the Electrical Characteristics if operated under different conditions.
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GND
EN
GND
GND
RSTB
VIN
RRSTB
10K
CVIN1
4.7uF
1210
50V/X7R
1
EN
RSTB
5
4
3
CVIN2
1uF
0805
50V/X7R 2
VIN
U1
EN
GND
RSTB
DRV
VIN
FB
DLY
BST
SW
COMP
NCV890103
EPAD
11
FB
7
CCOMP
330pF
0603
C0G / 50V
RCOMP
6.81K
0603
COMP
FB
BST
CBST
0.1uF
0603
CDRV
0.1uF
0603
10V/X7R
SW
6 COMP
DLY
BST
8
9
10 SW
DRV
CDLY
0.47uF
0603
DBST
BAS16HT1G
L1
4.7uH
DLY
ZFB1
4.7nF
0603
50V
RFB2
31.6
0603
RFB1
100
0603
Coilcraft XAL4030−472ME
XAL4030−472
DFW
MBRS1540T3G
SMB_DIODE
COUT1
10uF
1206
X7R / 10V
COUT2
10uF
1206
X7R / 10V
VOUT
RMIN1
OPEN
1206
GND
GND
GND
RMIN2
OPEN
1206
VOUT
NCV890103GEVB
Figure 4. NCV890103GEVB Evaluation Board Schematic
NCV890103GEVB
OPERATIONAL GUIDELINES
1. Connect a dc input voltage, within the 6.0 V to
36 V range, between VIN and GND.
2. Connect a dc enable voltage, within the 2.0 V to
36 V range, between EN and GND. This will
power up the switcher. The VOUT signal should
be 3.3 V.
3. Add a load to VOUT – up to 1.0 A.
Figure 5. NCV890103 Board Connections
ADDITIONAL GUIDELINES
Output Voltage Selection
The voltage output for the switcher is adjustable and can
be set with a resistor divider. The FB reference for the
switcher is 0.8 V.
VOUT
RUPPER
FB = 0.8 V
VREF (V)
RUPPER
(kW, 1%)
RLOWER
(kW, 1%)
1.2
0.8
5.11
10.0
1.5
0.8
8.87
10.0
1.8
0.8
12.7
10.0
2.5
0.8
21.5
10.0
3.3
0.8
31.6
10.0
5.0
0.8
52.3
10.0
Reset with Adjustable Delay
The RSTB pin is pulled low as long as the voltage on the
FB pin is lower than 92% (typical) of the reference voltage
(which corresponds to the output voltage being lower than
92% of its regulation level). It is high impedance when the
voltage goes above 94% (typical) of the regulation level,
after a delay adjusted by the capacitor on the DELAY pin.
The capacitor is held at ground until the output enters
regulation: CDELAY is then quickly charged to the internal
rail voltage (VRESU), then discharged by the Idelay current
until its voltage reaches the lower threshold VDELTH. Only
at this moment the RSTB pin voltage goes high, indicating
the end of the Reset condition.
RLOWER
Use the following equation:
R UPPER + R LOWER
Desired
Output (V)
V OUT*V FB
V FB
Some common setups are listed below:
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NCV890103GEVB
The RSTB pin is also pulled low in case of UVLO (VIN
below the UVLO threshold), TSD (temperature shutdown)
or Disable (VEN below the enable threshold) events.
A small filtering delay (of duration tPG) ensures that the
RSTB signal doesn’t toggle from high to low in case of high
frequency noise when the output is in regulation.
A pull-up resistor is needed on the RSTB pin, as it features
an open collector output, capable of sinking 1 mA minimum
at 400 mV.
VOUT
time
DELAY
VDELU
VDELTH
time
RSTB
tRESU
time
Figure 6. Typical Operation of the Reset with Delay Function
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NCV890103GEVB
TYPICAL PERFORMANCE
Efficiency
NCV890103 Efficiency − 3.3 V
100%
90%
80%
Efficiency
70%
60%
50%
40%
30%
VIN = 6.0 V
VIN = 13.2 V
20%
VIN = 28.0 V
10%
0%
0
0.2
0.4
0.6
0.8
1.0
1.2
Output Current (A)
Figure 7. Efficiency with a 3.3 V Output
NCV890103 Efficiency − 5.0 V
100%
90%
80%
Efficiency
70%
60%
50%
40%
30%
VIN = 6.0 V
20%
VIN = 13.2 V
VIN = 28.0 V
10%
0%
0
0.2
0.4
0.6
0.8
Output Current (A)
Figure 8. Efficiency with a 5.0 V Output
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1.0
1.2
NCV890103GEVB
Line Regulation
NCV890103 − Line Regulation − 3.3 V
Line Regulation (% of VOUT)
1.00%
0.50%
0.00%
−0.50%
IOUT = 100 mA
IOUT = 500 mA
IOUT = 1.0 A
−1.00%
0.00
5.00
10.00
15.00
20.00
25.00
30.00
Input Voltage (V)
Figure 9. Line Regulation for a 3.3 V Output
NCV890103 − Line Regulation − 5.0 V
Line Regulation (% of VOUT)
1.00%
0.50%
0.00%
−0.50%
IOUT = 100 mA
IOUT = 500 mA
IOUT = 1.0 A
−1.00%
0.00
5.00
10.00
15.00
20.00
Input Voltage (V)
Figure 10. Line Regulation for a 5.0 V Output
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25.00
30.00
NCV890103GEVB
Load Regulation
NCV890103 − Load Regulation − 3.3 V
0.04%
VIN = 6.0 V
Load Regulation (% of VOUT)
0.02%
VIN = 13.2 V
VIN = 28.0 V
0.00%
−0.02%
−0.04%
−0.06%
−0.08%
0
0.2
0.4
0.6
0.8
1.0
1.2
Output Current (A)
Figure 11. Load Regulation with a 3.3 V Output
NCV890103 − Load Regulation − 5.0 V
0.02%
VIN = 6.0 V
Load Regulation (% of VOUT)
0.00%
VIN = 13.2 V
VIN = 28.0 V
−0.02%
−0.04%
−0.06%
−0.08%
−0.10%
0
0.2
0.4
0.6
0.8
Output Current (A)
Figure 12. Load Regulation with a 5.0 V Output
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1.0
1.2
Figure 13. Schematic
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GND
EN
GND
GND
RSTB
VIN
RRSTB
10K
CVIN1
4.7uF
1210
50V/X7R
1
EN
RSTB
5
4
3
CVIN2
1uF
0805
50V/X7R 2
VIN
U1
EN
GND
RSTB
DRV
VIN
FB
DLY
BST
SW
COMP
NCV890103
EPAD
11
FB
7
CCOMP
330pF
0603
C0G / 50V
RCOMP
6.81K
0603
COMP
FB
BST
CBST
0.1uF
0603
CDRV
0.1uF
0603
10V/X7R
SW
6 COMP
DLY
BST
8
9
10 SW
DRV
CDLY
0.47uF
0603
DBST
BAS16HT1G
4.7uH
DLY
ZFB1
4.7nF
0603
50V
RFB2
31.6
0603
RFB1
100
0603
Coilcraft XAL4030−472ME
XAL4030−472
DFW
MBRS1540T3G
SMB_DIODE
L1
COUT1
10uF
1206
X7R / 10V
COUT2
10uF
1206
X7R / 10V
VOUT
RMIN1
OPEN
1206
GND
GND
GND
RMIN2
OPEN
1206
VOUT
NCV890103GEVB
SCHEMATIC
NCV890103GEVB
PCB LAYOUT
Figure 14. Top View
Figure 15. Bottom View
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NCV890103GEVB
BILL OF MATERIALS
Table 4. BILL OF MATERIALS
Manufacturer
Manufacturer’s
Part Number
Substitution
Allowed
Kemet
C0603C104K8RACTU
Yes
603
Murata Electronics
North America
GCM1885C1H331JA16D
Yes
10%
603
Murata Electronics
North America
GCM188R71E474KA64D
Yes
4.7 mF
10%
1210
Murata Electronics
North America
GRM32ER71H475KA88L
Yes
CAP CER
10 mF 10 V 10%
X7R 1206
10 mF
10%
1206
Taiyo Yuden
LMK316AB7106KLHT
Yes
1
CAP CER
1.0 mF 50 V
X5R 0805
1.0 mF
10%
805
Murata Electronics
North America
UMK212BJ105KG-T
Yes
DBST
1
DIODE
SWITCH
200 mA 75 V
SOD323
75 V/0.2 A
N/A
SOD_323
ON Semiconductor
BAS16HT1G
No
DFW
1
DIODE
SCHOTTKY
4.0 A 40 V SMB
40 V/4.0 A
N/A
SMB_DIODE
ON Semiconductor
NRVB440MFST1G
No
L1
1
INDUCTOR
POWER 4.7 mH
4.5 A 20% SMD
4.7 mH
4.5A
XAL4030-472
Coilcraft
XAL4030-472ME
No
*L2
1
RES 0.0 W
1/4 W JUMP
1206 SMD
0W
5%
1206
Yageo
RC1206JR-070RL
Yes
RCOMP
1
RES 6.98 kW
1/10 W 1%
0603 SMD
6.98 kW
1%
603
Vishay/Dale
CRCW06036K98FKEA
Yes
RFB1
1
RES 100 W
1/10 W 1%
0603 SMD
100 W
1%
603
Vishay/Dale
CRCW0603100RFKEA
Yes
RFB2
1
RES 31.6 W
1/10 W 1%
0603 SMD
31.6 W
1%
603
Vishay/Dale
CRCW060331R6FKEA
Yes
RRSTB
1
RES 10.0 kW
1/10 W 1%
0603 SMD
10.0 kW
1%
603
Vishay/Dale
CRCW060310K0FKEA
Yes
ZFB1
1
CAP CER
4700 pF 50 V
10% X7R 0603
4700 pF
10%
603
Murata Electronics
North America
GRM188R71H472KA01D
Yes
CSNB
1
Do Not
Populate
603
Yes
RMIN1,
RMIN2
2
Do Not
Populate
1206
Yes
RSNB
1
Do Not
Populate
603
Yes
BST, COMP,
DLY, FB,
RDEP, RMOD,
SW
7
CIRCUIT PIN
PRNTD .020″D
.425″L
Do Not
Populate
N/A
TPA
Mill-Max
Manufacturing
Corp.
3128-2-00-15-00-00-08-0
Yes
GND1, GND2,
VIN, VOUT
4
CONN JACK
BANANA
UNINS PANEL
MOU
N/A
N/A
BANANA
Emerson Network
Power Connectivity
Soultions
108-0740-001
Yes
Reference
Designator(s)
Qty.
Description
Value
Tolerance
Footprint
CBST, CDRV
2
CAP .10 mF
10 V CERAMIC
X7R 0603
0.1 mF
10%
603
CCOMP
1
CAP CER
330 pF 50 V
C0G 0603
330 pF
10%
CDLY
1
CAP CER
0.47 mF 25 V
10% X7R 0603
0.47 mF
CFLT1,
CFLT2, CVIN1
3
CAP CER
4.7 mF 50 V
10% X7R 1210
COUT1,
COUT2
2
CVIN2
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NCV890103GEVB
Table 4. BILL OF MATERIALS (continued)
Manufacturer’s
Part Number
Substitution
Allowed
Mill-Max
Manufacturing
Corp.
2501-2-00-44-00-00-07-0
Yes
TP
Vector Electronics
K24C/M
Yes
10PINDFNP5
ON Semiconductor
NCV890103MWTXG
No
Reference
Designator(s)
Qty.
Description
Value
Tolerance
Footprint
Manufacturer
GND3−GND6
4
TERM
SOLDER
TURRET .219″
.109″L
N/A
N/A
TURRET
EN, RSTB
2
PIN INBOARD
.042″ HOLE
1000/PKG
N/A
N/A
NCV890103
1
1.2 A 2 MHz
Automotive
Buck Switching
Regulator
NCV890103
N/A
*L2 is a placeholder footprint for an optional input inductor filter component. Boards are shipped with a shorting jumper installed to complete
the input path.
NOTE: All devices are RoHS Compliant.
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC owns the rights to a number of patents, trademarks,
copyrights, trade secrets, and other intellectual property. A listing of SCILLC’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent−Marking.pdf. SCILLC
reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any
particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without
limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications
and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC
does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for
surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where
personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and
its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly,
any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture
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EVBUM2235/D