Title: Presentation title (on one or two lines)
1TOSHIBA
The new Super Multi from TCUK
2 Super Multi INTELLIGENCE
3VRF Heat Recovery Growth
European VRF Segments
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4 Super Multi INTELLIGENCE
- Latest inverter technology (Intelligent Power
Drive Unit)
- Sophisticated controls options with interactive
intelligence
- Low weight, compact design with small footprint
.
5Small Footprint of SMi
Super Multi INTELLIGENCE
- Smaller than that of VRF competitors
27 reduction over previous model
SMi MAR-F105
Super Multi MAR-F104
-27
Tight fit for an application in France!
6 Super Multi INTELLIGENCE
Model No.
MAR-F105HTM8-PE
Cooling capacity
25.0 (28.0)kW
Heating capacity
28.0 (31.5)kW
1700(h) x 990(w) x 790(d)
Dimensions (mm)
380-415v, 3-phase, 50Hz
Power supply
58 db(A)
Sound level
.
285 kgs
Weight
Operating conditions (Heating)
-15 to 21ºC outdoor 15 to 29ºC indoor
-5 to 43ºC outdoor 18 to 32ºC indoor
Operating conditions(Cooling)
7 Super Multi INTELLIGENCE
The performance of a Super Multi in a smaller,
quieter, more sophisticated unit
It might look like a Modular Multi but dont try
connecting it to another SMi unit!
.
8Intelligent Power Drive Unit
.
Super Multi INTELLIGENCE
Mechanical relays replaced by electronics
Compressor heater control integrated with IPDU
Compact Size
Small inverter allows better design of outdoor
unit
9Interactive Intelligence
Super Multi INTELLIGENCE
.
- Leading technology for Building Management
- Systems
Windows based BMS
Optional energy monitoring or internet access
10Reduced Piping Complexity
Super Multi INTELLIGENCE
- Increased reliability
- 30 reduction in brazed joint connections
Ease of Maintenance
Improved accessibility to compressor and other
components
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11Features
Super Multi INTELLIGENCE
Wrap-around coil
Liquid tank
Suction accumulator
Sliding tray
.
12 Super Multi INTELLIGENCE
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- Simultaneous heating and cooling
- . . . . . . . . .for precise temperature
control
Design flexibility for building modifications
Efficiency by transferring heat within the
building
13 Super Multi INTELLIGENCE
On receipt of signals received from the
individual indoor units, a modulating valve
within the relevant multi controller controls the
flow of refrigerant to the indoor unit
. . . . . each circuit of the multi controller
has a dedicated modulating valve . . . . .
14 Super Multi INTELLIGENCE
. . . . . and in conjunction with a variable
speed compressor in the outdoor unit . . . . . . .
15 Super Multi INTELLIGENCE
inverter speed increases and is controlled to
meet demand
50
54
100
. . . fixed speed compressor starts
Fixed speed
Inverter
4
if demand is still greater than 50 inverter
slows to 4 capacity and . . .
Inverter compressor starts at 4
. . . . and if demand is 50 or greater runs up
to full speed (or less if demand is gt50)
16 Super Multi INTELLIGENCE
. . . . . the required amount of refrigerant is
delivered to each indoor unit to match demand.
17 Super Multi INTELLIGENCE
Using one multi controller . . . . .
. . . . up to four indoor units may be installed
18 Super Multi INTELLIGENCE
Using two multi controllers . . . . .
. . . . up to eight indoor units may be installed
19 Super Multi INTELLIGENCE
Using three multi controllers . . . . .
and an RBC-16DIF1-PE interface . . . . .
. . . . up to twelve indoor units may be
installed
20 Super Multi INTELLIGENCE
and with four multi controllers . . . . .
and two RBC-16DIF1-PE interfaces . . . . .
. . . . up to sixteen indoor units may be
installed
21 Super Multi INTELLIGENCE
Multi controller PCB
Sets maximum opening of PMV
Data fault code display
Dyna Doctor connection
Data fault code retrieval
22 Super Multi INTELLIGENCE
Data fault code display
Data fault code retrieval
Dyna Doctor connection
23 What are the rules for installation?
24Installation rules
All pipes must be of refrigeration quality,
hard-drawn or soft copper
All copper used must be new and previously unused
Pipes must be cut using a pipe cutter not a
hacksaw!
25Installation rules
All cut pipe lengths must be capped after use
If in doubt over pipe quality dont use it!
26Installation rules
All pipework must be adequately supported and
joints not understress
Oxygen-free nitrogen MUST be passed through
pipework during brazing
All interconnecting pipework should be tested to
10bar using OFN and tested for leaks
27Installation rules
Following the detection and repair of anyleaks,
pressurise pipework to 30bar with OFN
Leave this pressure in the system for at
leastfour hours, recording the pressure and
ambienttemperature at the start of the test
After at least four hours check and record the
pressure and ambient temperature and note any
pressure loss.
28Installation rules
Following the detection and repair of anyleaks
evacuate system to remove any remainingmoisture
After at least two hours evacuation (depending
on ambient conditions) start addingthe
additional refrigerant require for the system
Ensure that the refrigerant (R407C ONLY) is
charge into the system in its liquid phase into
the liquid line
29Installation rules
Once the system pressure has equalised open the
units service valves and operate the unit to
draw in the remaining charge through the units
suction valve.
REMEMBER the refrigerant must be weighed into
the system and MUST be R.407C
30Why must refrigerant R407C be charged as a liquid?
23 R32 25 R125 52 R134a
If charged as vapour only the high pressure
refrigerant at the top of the cylinder will be
drawn into the system
31TOSHIBA