STEVAL-ISA056V1 STMicroelectronics, STEVAL-ISA056V1 Datasheet - Page 49
STEVAL-ISA056V1
Manufacturer Part Number
STEVAL-ISA056V1
Description
BOARD EVAL BASED ON PM6600
Manufacturer
STMicroelectronics
Type
PWM Controllersr
Specifications of STEVAL-ISA056V1
Design Resources
STEVAL-ISA056V1 Gerber Files STEVAL-ISA056V1 Schematic STEVAL-ISA056V1 Bill of Material
Current - Output / Channel
30mA
Outputs And Type
6, Non-Isolated
Voltage - Output
36 V
Features
Dimmable
Voltage - Input
4.5 ~ 28V
Utilized Ic / Part
PM6600
Input Voltage
4.5 V to 28 V
Output Voltage
36 V
Product
Power Management Modules
Core Chip
PM6600
Topology
Boost
No. Of Outputs
1
Dimming Control Type
PWM
Mcu Supported Families
PM6600
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With/related Products
PM6600
Other names
497-8414
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
STEVAL-ISA056V1
Manufacturer:
STMicroelectronics
Quantity:
1
PM6600
B.4
B.4.1
B.4.2
B.4.3
Design example
In order to help the design of an application using the PM6600, in this section a simple step-
by-step design example is provided.
A typical application could be the LCD backlight in a 14.1” LCD panel using the PM6600.
Here below the possible application conditions are listed:
●
●
●
Switching frequency setting
To reduce the number of the external components, the default switching frequency is
selected (660 kHz typ.) by connecting the FSW pin to AVCC pin.
However, in case a different switching frequency is required, a resistor from FSW pin and
ground can be connected, according to the equation
Equation 22
Row current setting
The ROWs current is set using a resistor connected to the RILIM pin of the device. The
R
Equation 23
Inductor choice
The boost section, as all DC-DC converters, can work in CCM (continuous conduction
mode) or in DCM (discontinuous conduction mode) depending on load current, input and
output voltage and other parameters, among which the inductor value.
In a boost converter it is usually preferable to work in DCM.
Once the load, the input and output voltage, and the switching frequency are fixed, the
inductor value defining the boundary between DCM and CCM operation can be calculated
as:
Equation 24
where D is the duty-cycle defined as:
RILIM
V
6 ROWs x 8 WLEDs @ 20 mA
V
IN
F, LEDs
resistor can be calculated as:
= 12 ± 20%
= 3.5 V ± 200 mV
R
RILIM
Doc ID 14248 Rev 7
=
L
I
B
ROW
K
=
R
R
FSW
R
=
0
⋅
998
2
20
D
=
⋅
⋅
F
F
2
(
1
SW
SW
mA
5 .
−
V
D
)
=
2
49
.
k 9
Ω
Application note
49/60
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