1

TEST REPORT

CFL based HOME LIGHTING SYSTEM

Sl.No. Test description Observations Requirement as per

TEDA specifications

Remarks

1.0 PV MODULE 1.1 Type of module Mono / Poly crystalline

Silicon

1.2 Manufacturer

1.3 Sl. No.

1.4

Module

configuration

1x 100 Wp (or) 2 x 50 Wp

1.5 Peak Power at

STC

Should be 100 W or more

1.6 Voc Min 21V

2.0 LAMP 2.1 Make

2.2 Input Power

Consumption (W)

9 W+/- 15%

2.3 No. of Pins 2 pin type compatible to

220V AC

2.4 Power factor

2.5 Light output

Lumen CFL1: lumen

CFL2: lumen

CFL3: lumen

CFL4: lumen

CFL5: lumen

600 5% lumen

3.0 BATTERY 3.1 Make & Sl.No M/s.

3.2 Type of battery LMLA/VRLA

3.3 Rated Capacity at

C/10 discharge rate

(12V)

Ah

75Ah / 40 Ah

3.4 % of rated capacity

between battery

high and low

Atleast 75 %

(12V, 75Ah/24V, 40 Ah)

3.5 Protections

Low voltage cut off

Load reconnect

Over charge cut off

Module reconnect

2

TEST RESULTS

Sl.

No.

Test description Observations Requirement as

per TEDA

specifications

Remarks

4.0 POWER CONDITIONING UNIT

Make & Sl.No

4.1 CHARGE CONTROL UNIT 4.1.1 PV Array charging

efficiency

>=90%

4.1.2 PV Array charging

efficiency

>=85%

4.1.3 Sl

No

Parameters as per

IEC-62093

1 Visual inspection

(Cl. 11.1)

2 Functioning test

(Cl. 11.2)

a. Maximum Voltage

drop

across the charge

controller

b. Idle current

consumption

of the charge

controller

circuit (Quiescent

current)

c. Charge controller

output

suitable for

nominal

battery bank

3 Insulation resistance

test

(Cl. 11.4)

4 Protection against

mechanical impact

(Cl. 11.6)

5 Bulk Voltage

6 Float Voltage

7

a.

b.

c.

d.

e.

Protection

No load

Short circuit

Reverse polarity

Reverse flow

Battery temperature

Compensation

3

4.2 INVERTER 4.2.1

Efficiency Test result

as

per IEC – 61683

a. Input Battery Voltage 24 V / 12 DC

Nominal

b. Output Voltage &

Frequency

220 V ,50 Hz.

c. Output power @0.8 pf 100 VA

d. Efficiency @60% of the

load

>=85%

4.2.2 Other Parameters

a. No load loss ( no load

shutdown active mode)

b. Output Voltage Sine wave

c. Protections

Over Load

Short Circuit

d. Displays Voltage, Current,

Power & Energy of

PV and AC mains

Battery Voltage,

Charge Status,

Charging &

Discharging current

Voltage, Current,

Power, Frequency &

Energy output from

inverter

f. Indicators AC Mains ON

PV Charging ON

Battery Full & Low

Battery on trickle

charge

Fault indicators

g. Voltage THD <5%

h. Current THD <7%

i. Provision for automatic

changeover to grid when

the battery voltage is

low or when the Battery/

PCU fails.

4

Sl.

No.

Test description Observation

s

Requirement as

per TEDA

specifications

Remarks

5.0 ENVIRONMENTAL TEST FOR PCU

4.3.1

a.

b.

c.

Environmental Testing

Dry Heat test as per

IEC 60068-2-2

(+55oC+/- 2

oC for 16

Hrs)

Change of Temperature

Test IEC 60068-2-14

(+5oC &+55

oC+/- 3

oC

Duration at each

temperature:1 Hr , Rate

of change of

temperature:10C/Min,

No of cycles:5)

Damp Heat test

IEC 60068-2-30

(Temp25oC to 55

oC+/-

2oC, variant1,12+12 Hrs

cycle, No of cycle:2,

Humidity:93 +/-3% RH)

6.0 IP TEST FOR PCU a. PCU IP 21

Conclusions: It is endorsed that the CFL based SPV home lighting system

submitted by M/s. …………………… qualifies TEDA Specification and

M/s. …………………………is the original manufacturer

of……………………..

Note:

Copy of Test certificates/ Reports for the following components towards

compliance of standards as per Clause-18 of the tender document shall also be

submitted along with the above report:

1. PV Module

2. Battery

3. CFL

4. Cables &

5. Switches