BA6247FP-YE2 Rohm Semiconductor, BA6247FP-YE2 Datasheet - Page 11
BA6247FP-YE2
Manufacturer Part Number
BA6247FP-YE2
Description
IC DVR REVERSE MOTOR 25HSOP
Manufacturer
Rohm Semiconductor
Type
Reversible Motor Driverr
Datasheet
1.BA6238AN.pdf
(16 pages)
Specifications of BA6247FP-YE2
Applications
DC Motor Driver
Number Of Outputs
2
Current - Output
1A
Voltage - Supply
8 V ~ 18 V
Operating Temperature
-25°C ~ 75°C
Mounting Type
Surface Mount
Package / Case
25-HSOP
Product
Fan / Motor Controllers / Drivers
Supply Current
20 mA
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Load
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
BA6247FP-YE2
Manufacturer:
ROHM/罗姆
Quantity:
20 000
○
BA6246, BA6246N, BA6247FP-Y, BA6239A, BA6238A, BA6238AN
c
www.rohm.com
2009 ROHM Co., Ltd. All rights reserved.
2) Output high voltage setting
This function optionally sets output voltage by the VR pin and controls the motor rotating speed. However, when the
output high voltage is set to a low level, consumption at IC increases. Carry out thermal design with sufficient margin
incorporated with the power dissipation (Pd) under the actual application condition taken into account. Please do not to
exceed the VCC1 and VCC2 voltage forced to the VR pin voltage.
a) BA6246, BA6246N, BA6247FP-Y
b) BA6239A
The circuit diagram associated with the output high voltage setting VR pin is as per shown on the right.
The output high and low voltages V
V
V
V
(Reference values; V
In addition, the relation of VREF voltage to output voltage
is expressed by:
VR < VCC1 - V
VR < VCC2 - V
Therefore, when the VR voltage condition is as follows, the output high voltage is restricted.
VR > VCC1 - V
VR > VCC2 - V
V
V
The circuit diagram associated with the output high voltage setting VR pin is as per shown on the right.
The output high and low voltages V
V
V
(Reference values; V
In addition, the relation of VREF voltage to output voltage
is expressed by:
( V
Therefore, when the VR voltage condition is as follows,
the output high voltage is restricted.
VR > VCC2 - V
V
OH
OH
OL
OH
OH
OH
OL
OH
SAT(Q1)
= V
= V
= VR + ( V
≈ VR
= VCC1 - V
= VCC2 - V
= VR - ( V
= VCC2 - V
SAT(Q7)
SAT(Q3)
+ V
F(Q2)
+ V
+ V
SAT(Q1)
F(Q5)
SAT(Q1)
SAT(Q3)
SAT(Q1)
SAT(Q3)
SAT(Q2)
SAT(Q1)
SAT(Q3)
SAT(Q2)
) < VR < VCC2 - V
F(Q6)
F(Q4)
+ V
+ V
SAT
SAT
- V
+ (V
- V
+ (V
+ V
- V
F(Q4)
F(Q2)
≈ 0.2V, V
F(Q4)
F(Q4)
≈ 0.1V, V
F(Q2)
F(Q2)
F(Q2)
F(Q2)
) - ( V
)
- V
- V
- V
+ V
+V
+V
F(Q5)
F(Q5)
F(Q3)
F(Q2)
SAT(Q1)
F(Q3)
F(Q3)
F
F
OH
≈ 0.7V)
OH
≈ 0.7V)
SAT(Q2)
) - ( V
) - ( V
+ V
and V
and V
F(Q3)
+ V
F(Q4)
F(Q4)
OL
OL
)
F(Q2)
are expressed by:
are expressed by:
+ V
+ V
11/15
+ V
F(Q5)
F(Q5)
SAT(Q1)
)
)
Fig.35 BA6246, BA6246N, BA6247FP-Y
VR
Fig.36 BA6239A
Q1
Q4
Q5
Q1
Q3
Q2
Q4
Q2
Q7
Technical Note
2009.04 - Rev.A
Q3
Q6
OUT
GND
VCC2
VR
VCC1
VCC2
OUT
GND
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