What is Hybrid?
Hybrid type is one of the methods to maximize efficiency
by combining more than two power generation types. Today
combinations among alternative energy sources have been
rapidly developed.
This system is not only regarded as significant evolvement
in the field of the combination among clean energy sources,
but provides another advantage that the system becomes more
stable as sufficient electric power is generated. More electricity
can be generated and stored by taking advantage of both
from conventional grid line power source and photovoltaic
power source at the same time.
Features:
Solar gentle charging (Vdc) system for conventional AC-
IPS. (Dual Charge)
Design depends on required load
calculation. |
|
|
A
Standard Design Calculation (160 Wp)
Specification:
1. Solar PV Module 12 V. 160 W.
2. Battery 12 V. 60 Ah.
3. Inverter 1200 VA.
Ichg
= 2.35 × 4 = 9.4 Amp.
6 Hrs Sun light can provide 56.4 Ah. energy
With 10% Chg loss, 50.76 Ah. to battery
Total power available = 12 V. × 50.76 Ah = 609 Wh
With Inverter efficiency 85%, it can supply 520 Wh
For supplying for 3 hours, the load should be 520/3 = 170
W (approx)
Hence, 2 nos. × 60 Ah battery will serve for 3 hours at 170-Watt
load having DoD 38% (approx).
|
| 1. |
Solar PV Module |
12 V. 160
W. |
| 2. |
Battery/2 nos. |
12 V. 60 Amp |
| 3. |
Inverter (Dual charge system) with Rack |
1200VA |
| 4. |
Panel mounting metal bracket |
Slandered |
|
5 |
Charge Controller |
12V. |
| 6. |
Wire/Switch/ Nuts, fittings and installation charge |
As per requirements |
|
| |
Note:
The inverter can handle up to 840 W. load and as such the panel and battery rating can be
increased to 4 times their present rating without changing the inverter. |
| |
Note: The mentioned specifications and terms may change without prior
notice.
|
|
The
Basics of Charge Controller |
|
What is a solar charge
controller? What does a charge controller do?
A charge controller, or charge regulator regulates the voltage
and current coming form the solar panels going to the battery.
Most “12 volt” panels put out about 16 to 20 volts, so if
there is no regulation the batteries will be damaged from
overcharging. Most batteries need around 14 to 14.5 volts to get
fully charged.
Do always need a charge controller?
Generally, there is no need for a charge controller with the
small maintenance, or trickle charge panels, such as the 1 to 5
watt panels. A rough rule is that if the panel out 1/60th or
less per day of the rated battery capacity, you don't need one.
For example, a golf car battery is around 200 amp-hours.
So to keep up a series pair of them (12 volts) just for
maintenance or storage, you would want a panel that would
give you around 1/2 of 1% of the battery capacity per day.
Assume 5 hours sun per day. 200 amp-hours divided by 200
(.5%) gives you around 1 AH per day loss. A 5-watt solar
panel will supply around .3 amps (1.5 AH per day), so a
5-watt panel will give you more than enough to keep the
batteries up, but not so much as to damage them
Why 12 volt panels are 17 volts?
The obvious question then comes up- “why aren’t panels just
made to put out 12 volts”. The reason is that if you do that,
the panels will provide power only when cool, under perfect
conditions and, full sun. This is not something you can count on
in most places. The panels need to provide some extra voltage so
that when the sun is low in the sky, or have heavy haze, could
cover, or high temperatures*, still get some output from the
panel. A fully charged battery is around 12.7 volts, so the
panel has to put out at least that much under worst-case
conditions.
Detailed information on MPPT
(Maximum power point Traking) charge controllers?
The charge controller regulates this 16 to 20 volts output of
the panel down to what the battery needs at the time. This
voltage will vary from about 10.5 to 14.6 depending on the state
of charge of the battery, the type of battery, and
temperature.
Contrary to intuition, solar panels work best at cooler
temperatures-in fact, some of the so-called “self regulating”
panels (low voltage) will not charge a battery in temperatures
commonly found in hot climates.
Charger Controller Types
Charge controls come in all shapes, sizes, features, and price
ranges. They range from the small 4.5 amp control, up to the
60amp Outback Power MPPT programmable
with computer interface. Often, if currents over 40 amps are
required, two or more 20 to 40 amp units are wired in parallel.
The most common controls used for all battery-based systems are
in the 6 to 40 amp range.
Charge controls come in 3 general
types (with some overlap):
Simple 1 to 2 stage controls, which rely on relays or shunt
transistors to control the voltage in one or two steps. These
essentially just short or disconnect the solar panel when a
certain voltage is reached. For all practical purposes these are
dinosaurs, but you still see a few on old systems. Their only
real claim to fame is their reliability-they have so few
components, there is not much to break.
3-stage and/or PWM, these are pretty much the industry standard
now, but you will occasionally still see some of the older
shunt/relay types around, such as in the very cheap systems
offered by discounters and mass marketers.
The maximum power point tracking ones (MPPT), such
as those made Outback Power. These are the ultimate in
controllers, with prices to match-but with efficiencies in the
96 to 98% range; they can save considerable money on larger
systems since they provide 15 to 30% more power to the
battery.
Most controllers come with some kind of indicator, either a
simple LED, a series of LED’s, or digital meter. Some newer
ones have built in computer interfaces for monitoring and
control. The simplest usually have only a couple of small LED
lamps, which show that you have power and that you are getting
some kind of charge. Most of those with meters will show both
voltage and the current coming from the panels and the battery
voltage. Some also show how much current is being pulled from
the LOAD terminals.
All of the charge controllers that we stock are 3 or 4 stage PWM
types, including the MPPT units. (in reality, “4-stage” is
somewhat advertising hype- it used to be called equalize, but
someone decided that 4 stage was better than 3). And now we even
see one that advertised as “5 stage”…..
What is Equalization?
Equalization does somewhat what the name implies- it attempts to
equalize –or make all cells in the battery or battery bank of
exactly equal charge. Essentially it is a period of overcharge,
usually in the 15 to 15.5 volt range. If you have some cells in
the string lower than others, it will bring them all up to full
capacity. In flooded batteries, it also serves the important
function of stirring up the liquid in the batteries by causing
gas bubbles. Of course, in an RV or boat, this does not usually
do much for you unless you have been parked for months, as
normal movement will accomplish the some thing. Also, in systems
with small panels you may not get enough current to really do
much bubbling.
What is PWM?
Quite a few charge controls have a “PWM” mode. PWM stands
for Pulse Width Modulation. PWM is often used as one
method of float charging. Instead of steady output from the
controller, it sends out a series of short charging pluses to
the battery- a very rapid “on–off” switch. The controller
constantly checks the state of the battery to determine how fast
to send pulses, and how long (wide) the pulses will be. In a
fully charged battery with no load, it may just “tick” every
few seconds and send a short pulse to the battery. In a
discharge battery, the pulses would be very long and almost
continuous, or the controller may go into “full on” mode.
The controller checks the state of charge on the battery between
pulses and adjusts itself each time.
What is load, or “Low Voltage Disconnect”
output?
Some controllers also have a “LOAD”, or LVD output, which
can be used for smaller loads, such as small appliances and
lights. The advantage is that the load terminals have a low
voltage disconnect, so it will turn off whatever is connected to
the load terminals and keep form running the battery down too
far. The LOAD output is often used for small non-critical loads,
such as lights. A few can also be used as a lighting controller,
to turn lighting on at dark. Most systems do NOT need the LVD
function- it can drive only smaller loads. Depending on the
rating of the controller, this may be from 6 to 30 amps. You
cannot run any but the smallest inverter from the LOAD output.
On some controllers, series, the load output can be used to
drive a heavy duty relay for load control, gen start etc.
What is a “ Battery system Monitor”?
Battery system monitors are not controllers. Instead, they
monitor your battery system components and give you a pretty
good idea of what you are using and generating. They generally
keep track of the total amp-hours into and out of the batteries,
and the battery state of charge, and other information. They can
be very useful for medium to large systems for tracking exactly
what your system is doing with various charging sources. They
are somewhat overkill for small systems, but are kind of a fun
toy it you want to see what every amp is doing :-). Some models
also has computer interface and many other features.
|
|
Model
Number: R-1006 (Charge Controller) |
Tested
by: BUET (Bangladesh
University of Engineering & Technology)
Approved by: IDCOL (Infrastructure Development Company
Ltd)
|
| Technical
Specifications |
| A. |
Rated Voltage |
: |
12 V,10A |
| B. |
Shunt regulator |
: |
Fast and gentle
charging |
| C. |
Time delayed
over discharge protection |
: |
Yes |
| D. |
Main (MOSFET)
On- Off & Over load preset |
: |
Switch type |
| E. |
High voltages
disconnect (HVD): |
|
|
 |
Voltage Regulation
set point (Vr) |
: |
14.4V. |
|
Reconnect
Voltage (Vrr) |
: |
Not Applicable
as it is PWM algorithm. |
| F. |
System
Connection status |
: |
Yes |
| G. |
Maximum
current handling capacity |
: |
10A |
| H. |
Type
of current leakage protection |
: |
By Blocking
Diode |
| I. |
Voltage
drop between Module and |
|
|
|
Battery terminals
at controller/regulator |
: |
0.33 V. |
|
|
|
|
| J. |
LVD
maximum current handling capacity |
: |
10A |
| K. |
LED
set points: |
|
|
|
Disconnect
Voltage |
: |
11.6 V. |
|
Reconnect
Voltage |
: |
12.4 V. |
| L. |
Self
Consumption: |
|
|
|
With LED |
: |
8.2 mA |
|
Without |
: |
6.6 mA |
| M. |
Short circuit
protection |
: |
Yes By Electronic
System. |
| N. |
Reverse
polarity protection |
: |
Yes By Diode |
| O. |
Electronic
over current protection |
: |
Yes By Electronic
System. |
| P. |
Lightening
surge protection |
: |
Yes, By MOV
(Metal Oxide Varistar) |
| Q. |
System
Monitoring: |
|
|
|
Charging
indicator |
: |
Yes |
|
Battery Status
|
: |
Yes |
|
System Status
|
: |
Yes |
|
| |
|
Price : @ TK. 800.00 (Eight hundred only). |
|
|
|
Note:
The mentioned specifications and price terms may change without
prior notice.
|
Special
Solar System |
|
|
|
1
|
High
powered solar inverter (for electric workshop/and
computer operation) |
As
per specification |
|
2
|
Soar
water heater (thermal) |
As
per specification |
|
3
|
Garden
and street light (Automatic) |
As
per specification |
|
4
|
Solar
Battery charger |
As
per specification |
|
5
|
Green
house |
As
per specification |
|
6
|
Solar
dryer (for food preservation) |
As
per specification |
|
7
|
Urban
Building Integrated P.V. (BIPV) system
|
As
per specification |
|
8
|
Energy
efficient Electrical System |
As
per specification |
|
9
|
Specially
designed building for reduced cooling load.
|
As
per specification |
|
10
|
Rural
Water Conservation
A.
Rain water-reservoir/harvest
B.
Intelligent pump operation/PV pumping for irrigation.
|
As
per specification
|
|
We
welcome customized orders.
|
|
Solar
Light Products: (LED) |
|
|
Low
Powered LED’s (Light Emitting Diode) Based Solar Light (12 Vdc)
|
|
10.1.
|
1
LED based Dim Light (white) |
Model:
R-1011 |
|
10.2.
|
9
LED’s based spotlight |
Model:
R-1012 |
|
10.3.
|
12
LED’s based spotlight |
Model:
R-1015 |
|
10.4.
|
15
LED’s based spotlight |
Model:
R-1020 |
|
10.5.
|
7
Nos. LED’s flashlight |
Model:
R-1014 |
|
10.6.
|
12
LED’s based Harricane
Specification:
Type:
Transportable LED Lantern with built in battery.
Lumen
duration:
3 (Three) hours continues.
Light
Source: 12 x ultra bright LED. (10 mcd and 400
viewing angle).
Illumination:
360 degrees.
Battery:
Sealed gel (4V. 2Ah).
Controller
and
Protection:
Over charge and Deep discharge protection,
Charge
mode:
DC supply (constant full charge)
Battery:
6 (Six) months warranty
|
Model:
R-1013/DC |
|
|
|
|
Warranty:
Conditional
Note:
The mentioned specifications price and terms may change without
prior notice.
|
|
Solar
Light with (12Vdc) Inverter |
|
|
|
1.1.
|
10
W. FTL with plastic shade/complete |
Model:
R-1010 |
@
Tk.425.00 |
|
11.2. |
9
W. CFL with plastic (table lamp) or metal shade/ complete |
Model:
R-1009 |
@
Tk.450.00 |
|
11.3.
|
8
W. FTL with metal shade/complete |
Model:
R-1008 |
@
Tk.400.00 |
|
11.4.
|
6
W. FTL with metal shade/complete |
Model:
R-1007 |
@
Tk.375.00 |
|
|
Features:
Low
voltage start, low temperature start, preheats start and polarity
protection.
Warranty:
2 (two) years for Inverter, but no guarantee for FTL or CFL
Note:
The mentioned specifications price and terms may change without
prior notice.
|
|
Power
Quality products |
|
|
Emergency
Power System (EPS) |
|
|
Specification:
|
|
I.
|
Regulated
Charge with LVD system |
Built
in |
|
II.
|
A.C
to DC Connect supply |
Applied
|
|
III.
|
12
V. 7 Ah @ 20HR sealed gel Battery |
1 No.
|
|
IV.
|
12
Vdc 6W. FTL |
2 Nos.
|
|
and
|
LED based (12Vdc 1W.) spotlight
|
1 No.
|
|
or
|
LED based (12Vdc 1W.) spotlight only
|
5 Nos.
|
|
V.
|
Electric
wire and accessory |
1 set.
|
|
| |
|
Price:
@ Tk. 2700.00 (Two thousand and seven hundred only).
Charging
capacity: Illumination duration 3 hours at full load of Battery.
Warranty:
- Battery :
06 (Six) months (supplier’s).
Note:
The mentioned specifications price and terms may change without
prior notice.
|
|
LED’s
based IPS (AC) Lantern |
| |
|
|
| |
Model:
R- 1013/AC |
|
|
|
Price
: @ Tk. 325.00 (Three hundred and twenty five only).
Specifications:
Type:
Transportable LED Lantern with built in battery.
Lumen
duration: 3 (Three) hours continues.
Light
Source: 12 x ultra bright LED.(10 mcd and 400 viewing
angle).
Illumination:
360 degrees.
Battery:
Sealed gel (4V. 2Ah).
Controller
and
Protection:
Over charge and Deep discharge protection,
Charge
mode: DC supply (constant full charge)
Battery
warranty: 6 (Six) months
Note:
The mentioned specifications price and terms may change without
prior notice.
|
|
Power
Quality Products |
|
|
Brand:
Tricon |
|
| |
UPS picture
|
|
|
|
S.L
|
Products
Item |
Unit
Price |
|
UPS
|
|
14.1.
|
600VA
for one computer |
@ Tk. 2600.00
|
|
14.2.
|
750
VA for two computer (short backup) |
@ Tk. 3200.00
|
|
14.3.
|
1000
VA for two computer (long backup) |
@ Tk. 4000.00
|
|
STABILIZER
|
|
14.4.
|
600
VA Input 80-260 V |
@ Tk. 1500.00
|
|
14.5.
|
1000
VA Input 80-260 V |
@ Tk. 2500.00
|
|
TRANSFORMER
|
|
14.6.
|
3
Amp 6V–12V |
|
|
14.7.
|
7Amp
12V–24V–35V |
@ Tk. 360.00
|
|
IPS
(Inverter)
|
|
Capacity
|
Back-up
time |
Batt.
Volt DC input |
Load
application |
Price
without battery/ system |
System
Rack |
|
VA
|
W.
|
|
400 |
320 |
3
Hours |
12
V 75 Ah
|
2
FTL & 2 Fans |
@Tk.
6,500.00 |
Tk
700.00 |
|
600 |
480 |
2
Hours |
12
V 120 Ah |
4
FTL 2 Fans & 1TV |
@Tk.
10, 500.00 |
Tk
700.00 |
|
750 |
600 |
2
Hours |
24
V 75 Ah
|
4
FTL 3 Fans & 1TV |
@Tk.
11, 500.00 |
Tk
800.00 |
|
1200
|
960 |
2
Hours |
24
V 150 Ah |
6
FTL 6 Fans & 1TV |
@Tk.
12, 500.00 |
Tk
800.00 |
|
1500
|
1200
|
2
Hours |
24
V 150 Ah |
9
FTL 7 Fans & 1TV |
@Tk.
13, 500.00 |
Tk
800.00 |
|
2000
|
1600
|
2
Hours |
24
V 200 Ah |
11
FTL 10 Fans & 1TV |
@Tk.
17, 000.00 |
Tk
1000.00 |
|
Approximate
power consumption in watts (W) of different electrical appliances
|
|
1.
|
Fluorescent
tube light, 2ft |
=
|
20
W |
|
2.
|
Fluorescent
tube light, 4ft |
=
|
40
W |
|
3.
|
Black
& white television, 17 inch |
=
|
35
W |
|
4.
|
Black
& white television, 24 inch |
= |
40
W |
|
5.
|
Color
television, 16 inch |
=
|
65
W |
|
6.
|
Color
television, 20 inch |
=
|
85
W |
|
7.
|
VCD
|
=
|
25
W |
|
8.
|
DVD
|
=
|
30
W |
|
9.
|
Fan
|
=
|
80
W |
|
10.
|
GLS
lamp |
=
|
actual
watt |
|
11.
|
Cassette
player, Fax, Telex, PABX |
=
|
actual
watt |
|
|
Power
consumption of the above appliances is calculated including
approximate line and heat losses of the associated components
like ballast of the fluorescent tube light, regulator of the fan
etc. on average basis.
Example
For 4 nos. of
4 ft fluorescent tube light + one color TV of 20 + 2 GLS lamps
of 60 W and one VCD/DVD, the total power (Watts) required is:
|
40
W × 6
= |
240
W |
|
85
W × 1
= |
85
W |
|
80
W × 2
= |
160
W |
|
30
W × 1
= |
30
W |
|
Total
= |
435
W |
So, one IPS of
435 W capacity i.e an IPS of approx. 600 VA is appropriate for the above requirement.
Note: The
mentioned specifications price and terms may change without prior
notice.
|
|
Energy
Efficient Light
|
|
|
a. A C. LED
Light system:
|
|
S.L |
Products
Item |
Unit
Price |
|
15.1.
|
3
LED’s based dim light |
@
Tk.
|
|
15.2.
|
12
LED’s based spotlight |
@
Tk.
|
|
15.3.
|
15
LED’s based spotlight |
@
Tk.
|
|
b.
AC fluorescent Tube Light System (10 W).
|
|
|
Note:
The mentioned specifications price and terms may change without
prior notice.
|
|
Bicycle
Head light with AC charging Battery system
|
| |
|
|
| |
Model:
R-1016 |
|
|
|
Specification:
Type:
Transportable LED spotlight with built in battery.
Lumen duration: 3 (Three) hours continues.
Light Source: 12 x ultra bright LED.
Illumination: Flash spotlight.
Battery: Sealed gel (4V 2Ah).
Controller and Protection: Over charge and Deeply discharge
protection,
Charge mode: AC supply (full charge)
Battery warranty: 6 (Six) months
Price:
@Tk. 250.00 (Two hundred and fifty only)
Note: The
mentioned specifications price and terms may change without prior
notice.
|
|
|
|
|
