All specifications are subject to change without notice.

All specifications are subject to change without notice.

Power Electronics

Test Equipment

Photovoltaic

Test Equipment

11-12

Video & Color

Test Equipment

LCD/LCM

Test Equipment

Electrical Safety

Test Instruments

General Purpose

Test Instruments

Pa

ss

ive

C

om

po

ne

nt

Test Instruments

LED

Test Equipment

Se

m

ico

nd

uc

tor

/IC

Test Equipment

PXI Instruments

&

Systems

Optical Inspection

Equipment

All specifications are subject to change without notice.

All specifications are subject to change without notice.

Programmable DC Electronic Load

Model 63110A/63113A

• Continued on next page ➟

KEY FEATURES

■

Unique LED mode for LED power driver test

■

Programmable LED operating resistance (Rd)

■

Programmable internal resistance (Rr) for

simulating LED ripple current
■

Fast response for PWM dimming test

■

Up to eight channels in one mainframe

■

16-bit precision voltage and current

measurement with dual-range
■

Full Protection: OC, OP, OT protection and OV

alarm

As a constant current source, the LED power driver
has an output voltage range with a constant
output current. LED power drivers are usually
tested in one of the following ways :
1. With LEDs
2. Using resistors for loading
3. Using Electronic Loads in Constant Resistance
(CR) mode, or Constant Voltage (CV) mode

However, all these testing methods, each of them
has their own disadvantages.

As shown on the V-I curve in Figure 1, the LED has
a forward voltage V

F

and a operating resistance

(Rd). When using a resistor as loading, the V-I
curve of the resistor is not able to simulate the V-I
curve of the LED as shown on Figure 1. This may
cause the LED power driver to not start up due
to the difference in V-I characteristic between
the resistors and the LEDs. When using Electronic
Loads, the CR and CV mode settings are set for
when the LED is under stable operation and
therefore, is unable to simulate turn on or PWM
brightness control characteristics. This may cause
the LED power driver to function improperly
or trigger it's protection circuits. These testing
requirements can be achieved when using a LEDs
as a load; however, issues regarding the LED aging
as well as different LED power drivers may require
different types of LEDs or a number of LEDs. This
makes it inconvenient for mass production testing.

Figure 3 63110A dimming test

I

Figure 5 Simulate different characteristic of LEDs

V

V

F1

V

F2

V

F3

V

o

Io

R

d3

R

d2

R

d1

I

Io

V

o1

V

o2

V

o3

V

o4

Figure 4 Simulate different number of LEDs

R

d1

R

d2

R

d3

R

d4

Figure 2 LED dimming test

6312A : 2 in 1 Mainframe

6314A : 4 in 1 Mainframe

Chroma has created the industries first LED
Load Simulator for simulating LED loading with
our 63110A load model from our 6310A series
Electronic Loads. By setting the LED power driver's
output voltage, and current, the Electronic Load
can simulate the LED’s loading characteristics.
The LED’s forward voltage and operating
resistance can also be set to further adjust the
loading current and ripple current to better
simulate LED characteristics. The 63110A design
also has increased bandwidth to allow for PWM
dimming testing.

Figure 2 shows the dimming current waveform
of the LED. Figure 3 shows the dimming current
waveform when using 63110A as a load.The 6314A
holds up to four 63110A load modules, which will
result in an 8-channel 100W/channel load with
standard front-panel inputs. This makes it ideal
for testing single output and multiple output LED
driver. Additionally, the GO/NG output port is
useful for UUT's pass/fail testing on an automated
production line. All modules on the 6314A/6312A
mainframe share a common GPIB address to
synchronize and speed up the control of the load
modules and the read-back of data.

I

V

LED Curve

Vo

Io

Rd

Figure 1 LED V-I Characteristics

V

I

I

Io