Rohm BD9121GUL Silicon monolithic integrated circuit Datasheet

1/4
STRUCTURE
Silicon Monolithic Integrated Circuit
PRODUCT NAME
1ch DC/DC Converter Controller IC with Built-in Synchronous Rectifier
TYPE
BD9121GUL
FEATURES
・Output Voltage:Fixed(1.2V, 1.3V, 1.4V), Output Current:0.3A
・Fast transient response with current mode PWM control system
・High efficiency with synchronous rectifier
○ABSOLUTE MAXIMUM RATING(Ta=25℃)
Parameter
Symbol
VCC
Supply Voltage
PVCC
SEL Voltage
SEL
SW・ITH Voltage
SW, ITH
SW Output Current
ISW
Power Dissipation 1
Pd1
Operating Temperature Range
Topr
Storage Temperature Range
Tstg
Maximum Junction Temperature
Tjmax
Limit
-0.3~+7 *1
-0.3~+7 *1
-0.3~+7
-0.3~+7
0.5 *1
660 *2
-25~+85
-55~+150
+150
Unit
V
V
V
V
A
mW
℃
℃
℃
1
* Pd, ASO, and Tjmax=150℃ should not be exceeded.
2
* Derating is 5.28mW/℃ for temperatures above Ta=25℃ (when mounted on 50mm×58mm×1.6mm glass epoxy PCB).
○OPERATING CONDITIONS(Ta=-25~+85℃)
Parameter
Symbol
VCC
Supply Voltage
PVCC
SW Average Output Current
ISW
Min.
2.55
2.55
-
3
* Pd and ASO should not be exceeded.
REV. A
Typ.
3
3
-
Max.
3.6
3.6
0.3*3
Unit
V
V
A
2/4
○ ELECTRICAL CHARACTERISTICS (Unless otherwise specified, Ta=25℃, VCC=PVCC=3V, VOUT=1.3V)
Parameter
Symbol
Limit
Unit
Condition
Min.
Typ.
Max.
ICC
-
400
640
μA
Output Voltage1
VOUT1
-2
-
+2
%
Output Voltage2
VOUT2
-3
-
+3
%
Oscillation Frequency1
FOSC1
2.4
3
3.6
MHz
Oscillation Frequency2
FOSC2
2.1
3
3.9
MHz
Pch FET ON Resistance
RONP
-
0.3
0.6
Ω
PVCC=3V
Nch FET ON Resistance
RONN
-
0.2
0.4
Ω
PVCC=3V
ITH Sink Current
ITHSI
10
20
-
μA
VOUT=2V, SEL=OPEN
VOUT=0.8V, SEL=OPEN
Bias Current
Ta=-25~85℃
Ta=25~85℃
ITHSO
10
20
-
μA
UVLO Threshold Voltage
VUVLO1
2.1
2.25
2.4
V
VCC=3→0V
UVLO Release Voltage
VUVLO2
2.12
2.3
2.5
V
VCC=0→3V
TSS
25
50
100
μs
TLATCH
0.68
1.36
2.72
ms
VSCP
-
0.65
1
V
ITH Source Current
Soft Start Time
Timer Latch Time
Output Short circuit
Threshold Voltage
○PHYSICAL DIMENSION
SCP/TSD
Operational Mode
VOUT=1.3→0V,
SEL=OPEN
○BLOCK DIAGRAM・APPLICATION CIRCUIT
VCC
VREF
PVCC
9121
Current
Comp
+
R Q
S
Lot No.
SEL
Gm Amp SLOPE
Current
Sense/
Protect
4.7μF
+
L
CLK
OSC
+
VCC
10Ω
Driver
Logic
SW
4.7μF
Soft
Start
UVLO
TSD
PGND
SCP
GND
VOUT
ITH
RITH CITH
VCSP50L2 (UNIT:mm)
REV. A
0.1μF
3V
Input
Output
3/4
○PIN DISTRIBUTION [Bottom View]
B1
B2
SW
A1
B3
PVCC
A2
PGND
B4
VCC
A3
GND
VOUT
A4
SEL
○SETTING THE OUTPUT VOLTAGE
ITH
○PIN No.・PIN NAME
SEL
Output Voltage〔V〕
PIN No.
PIN NAME
GND
1.2
A1
PGND
OPEN
1.3
A2
GND
VCC
1.4
A3
SEL
A4
ITH
B1
SW
B2
PVCC
B3
VCC
B4
VOUT
※Cannot switch in operational mode.
REV. A
4/4
○NOTES FOR USE
(1)
Absolute maximum rating
Although the quality of this IC is rigorously controlled and will function properly in normal operating conditions, the IC may
be destroyed when applied voltage or operating temperature exceeds its absolute maximum rating. Because short mode
or open mode cannot be specified when the IC is destroyed, it is important to take physical safety measures such as
fusing if a special mode in excess of absolute rating limits is to be implemented.
(2)
GND potential
Make sure the potential for the GND pin is always kept at the minimum, regardless of the operating mode. In addition,
verify that the GND voltage is lower than the potential of all terminals except SW, PGND and GND in all conditions,
including electric transient events.
(3) Thermal design
Do not exceed the power dissipation (Pd) of the package specification rating under actual operation. Provide sufficient
margin in the thermal design to account for the Pd expected in actual use.
(4) Short-circuits between pins and incorrect mounting position
When mounting the IC onto the set PCB, be extremely careful about the orientation and position of the IC. The IC may
be destroyed if it is incorrectly positioned for mounting. Do not short-circuit between pins, or between a pin and the power
supply or ground terminal. Note that introducing foreign matter in these paths will cause shorts and may damage the IC.
(5) Operation in strong electromagnetic fields
Use in strong electromagnetic fields may cause malfunctions. Use extreme caution with electromagnetic fields.
(6) ASO (Area of Safe Operation)
Do not exceed the maximum ASO parameter or the absolute maximum ratings of the output driver.
(7) TSD (Thermal Shutdown) circuit
This product is provided with a built-in thermal shutdown (TSD) circuit, which is activated when the IC chip temperature
rises to the threshold value. In this case, TSD automatically latches output OFF. Output is restored when UVLO is
deactivated. Note that the TSD circuit is provided for the exclusive purpose shutting down the IC in the presence of
extreme heat, and is not designed to protect the IC per se or guarantee performance when or after extreme heat
conditions occur. Therefore, do not operate the IC with the expectation of continued use or subsequent operation once the
TSD is activated.
(8) GND wiring pattern
When both a small-signal GND and high current GND are present, single-point grounding (at the standard point on the
circuit set board) is recommended. This will separate the small-signal and high current patterns, and serves to ensure that
the high current flow and wire impedance will not change the small-signal GND voltage. In the same way, care must be
taken to avoid wiring pattern fluctuations in any connected external component GND.
(9) Operation in supply voltage range
Circuit functionality is guaranteed within the operating ambient temperature, as long as the operation is within the supply
voltage range. The standard electrical characteristics cannot be guaranteed.
However, any variation in these values will be small, as long as the operation is within the supply voltage range.
(10) The application schematic presented above is an example of recommended circuit layout. Although the circuit example is
sound, actual circuit characteristics should be checked carefully before use. Be sure to allow sufficient margins to
accommodate variations between external devices and this IC when employing the depicted circuit with other circuit
constants modified. Both static and transient characteristics should be considered in establishing these margins. When
switching noise is substantial and may impact the system, a low pass filter should be inserted between the Vcc and PVcc
pins, and a Schottky barrier diode established between the SW and PGND pins.
(11) Overcurrent protection circuit/Output short protection circuit
The overcurrent protection circuit is built into output, and functions as the current limit.
Note that if the protection circuit operates more than a specified time period (when the output short-circuit protection
circuit detects a load short or other similar state) the output will be latched OFF.
Output is restored when UVLO is deactivated. Although the protection circuits effectively prevent IC destruction under
fault conditions, they should not be employed continuously.
REV. A
Notice
Notes
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R1010A
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