ZXLD1370EST16TC Diodes Inc, ZXLD1370EST16TC Datasheet - Page 14
ZXLD1370EST16TC
Manufacturer Part Number
ZXLD1370EST16TC
Description
LED Drivers 6V TO 60V 11uA
Manufacturer
Diodes Inc
Datasheet
1.ZXLD1370EST16TC.pdf
(36 pages)
Specifications of ZXLD1370EST16TC
High Level Output Current
18 mA
Operating Supply Voltage
6 V to 60 V
Maximum Supply Current
11 uA
Maximum Operating Temperature
+ 125 C
Package / Case
TSSOP-16 EP
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ZXLD1370EST16TC
Manufacturer:
MICROCHIP
Quantity:
2 000
Set the appropriate GI ratio according to the circuit duty and the max switch current admissible cycle limitations
If the potential divider ratio is greater than 0.64, the device detects that buck-mode operation is desired and the output current
will deviate from the desired value.
For example, as in the typical application circuit, in order to get I
ZXLD1370
Document number: DS32165 Rev. 4 - 2
Applications Information
Note that the average LED current for a boost or buck-boost converter is always less than the average sense resistor
current. For the ZXLD1370, the recommended potential divider ratio is given by:
It is possible to use a different combination of GI pin voltages and sense resistor values to set the LED current.
In general the design procedure to follow is:
-
-
-
Calculate the maximum duty-cycle as:
Buck mode
Boost mode
Buck-boost mode
- Set RGI1 as:
- Calculate RGI2 as:
When the ADJ pin is directly connected to the REF pin, this becomes:
-
Define input conditions in terms of V
Set output conditions in terms of LED current and the number of LEDs
Define controller topology – Buck, Boost or Buck-boost
Calculate the sense resistor as:
R
0
D
D
D
R
I
V
LED
R
I
RS
2 .
V
s
MAX
MAX
MAX
s
ADJ
GI
GI
=
=
≤
2
R (
(R
(R
≈
=
=
=
=
=
GI
GI
1
GI
V
V
V
V
(R
R
D
−
1
V
R
1
IN
LEDS
LEDS
LEDs
R
1
V
D
+
ADJ
MAX
GI
GI
+
GI
GI
MIN
GI
+
MAX
R
1
R
1
R
1
V
R
V
1
GI
GI
LEDS
LEDS
GI
+
GI
2
=
−
+
) 2
R
)
1
) 2
V
x
225
V
GI
(R
IN
IN
I
≤
R
LED
225
) 2
GI
I
GI
. 0
LED
mV
MIN
MIN
R
1
50
≤
1
mV
GI
+
1
R
1
(Continued)
−
GI
D
MAX
) 2
≈
. 0
IN
10
23
and I
k
Ω
≤
IN
R
GI
www.diodes.com
1
≤
14 of 36
200
LED
k
Ω
= 350mA with IRS=1.5A the ratio has to be set as:
Diodes Incorporated
A Product Line of
© Diodes Incorporated
ZXLD1370
March 2011