This item will be discontinued on: Jan 30, 2018
This item is being replaced by:
3312560
Liquid Cooling Package LCP Inline CW, LCP Inline CWG
Article number: SK 3311.560
Bayed climate control designed for siting within a bayed enclosure suite. The hot air is extracted at the rear of the unit, cooled and then expelled forwards to the cold aisle.
- Article number:
- SK 3311.560
- Benefits
- Maximum energy efficiency due to EC fan technology and IT-based control
- Minimal pressure loss at the air end, which in turn minimises the power consumption of the fans
- Optimum adaptability due to dynamic, continuous control of the cold water volume flow
- By using high water inlet temperatures, the proportion of indirect free cooling is increased, which in turn reduces operating costs
- Targeted cooling output due to modular fan units
- Fan modules configurable as n+1 redundancy
- Standard 3-phase connection for electrical redundancy
- With redundant temperature sensor integrated at the air end as standard
- The separation of cooling and enclosure prevents the ingress of water into the server enclosure
- A footprint of max. 0.36 m² for all cooling services
- Improved heat recovery, thanks to high water return temperatures when using LCP CW glycol variants, for example in combination with a heat pump
- Optimum access for maintenance and servicing from the front and rear
- Tool-free replacement of the fan modules
- Function principle
- The hot air is drawn in from the room or hot aisle at the rear of the device and expelled at the front into the cold aisle after cooling. With this product, a raised floor is not necessary.
- Material
- Sheet steel, spray-finished
- Colour
- RAL 7035
- Options
- Direct connection of additional CMC III sensors is supported
Racks 2200 mm high - Design
- Suite cooling
- Monitoring
- Monitoring of all system-relevant parameters such as server air intake temperature, server waste air temperature, water inlet/return temperature, water flow, cooling output, fan speed, leakage
- Direct connection of the unit via SNMP over Ethernet
- Integration into RiZone
- Total cooling output/Number of fan modules
- 40 kW/4
45 kW/5
55 kW/6 - Air throughput (unimpeded air flow)
- At 50 Hz: 8,000 m³/h
At 60 Hz: 8,000 m³/h - Number of fans
- 4
- Dimensions
- Width: 300 mm
Height: 2,000 mm
Depth: 1,200 mm - To fit enclosure type
- TS IT
- Installation in bayed enclosure suite
- Set forward
- Rated operating voltage
- 230 V, 1~, 50 Hz/60 Hz
- 400 V, 3~, 50 Hz/60 Hz
- Max. cooling output
- 55 kW
- Type of electrical connection
- Connector
- Duty cycle
- 100 %
- Cooling medium
- Water
- EC fan
- Yes
- Fans may be exchanged with the system operational
- Yes
- Temperature control
- Linear fan control
- Two-way control valve
- Water connections
- DN 40 (G 1½" external thread)
- Water inlet temperature
- 15 °C
- Protection category to IEC 60 529
- IP 20
- Packs of
- 1 pc(s).
- Weight/pack
- 236 kg
- EAN
- 4028177661912
- ETIM 7.0
- EC002515
- ECLASS 8.0
- 27180712
- Product description
- SK LCP Inline CW, Air/water heat exchanger for bayed suite cooling, Mounted on the side of the rack, set forward 200 mm, The hot air is drawn in from hot aisle at the rear, of the device and expelled at the front into
TopTherm LCP Inline CW, 3311.560 WHD(mm)300x2000x1200
TopTherm LCP Inline CW:
The design of the unit is optimised for use in data
centres. The integrated air/water heat exchanger
guarantees a cooling output of up to 60 kW, combined
with standard server enclosure dimensions, the lowest
possible weight and comprehensive possibilities for
monitoring.
The air/water heat exchanger is mounted on the side of
the rack.
LCP Inline draws the hot server air in via a
perforated rear door.
The front of the unit protrudes approx. 200 mm in
front of the server racks; the cooled air is expelled
left and right, over the whole enclosure height, in
front of the perforated doors of the server racks and
is thus made available to the 482.6 mm (19") equipment
once more.
The use of four integrated EC fan modules (cooling
output up to 40 kW) achieves maximum efficiency and
minimises the electrical energy consumption.
The unit is prepared for the incorporation of a
maximum of six EC fan modules (cooling output up to 60
kW). For this reason it is possible to retrofit two
additional fan modules up to full configuration and
achieving the optimum cooling output.
This safeguards the value of an investment where the
full cooling output is not yet required at the time of
initial operation.
The flow characteristics of the heat exchanger have
been optimised for the minimum possible pressure loss
on the air side. This in turn minimises the energy
consumption of the fans.
The high-performance heat exchanger guarantees maximum
cooling output even at high water inlet temperatures,
enabling the proportion of operation in combination
with indirect free cooling to be maximised and
operating costs reduced accordingly.
The air/water heat exchanger and server rack remain
separate from each other. This eliminates the risk of
water penetrating into the server rack and improves
the ease of installation and service.
Leakage management is integrated.
The water connection can be realised optionally to the
top or bottom by way of an accessory kit
(1 1/2" thread).
Fast commissioning of the unit thanks to fast and
simple air bleeding.
The standard integrated software/controller concept
provides for automatic control of the specified server
air intake temperature. The fan speed and cooling
water flow rate are both infinitely variable, for
precise matching to the power losses of the components
installed in the IT rack.
The optimum operating point is thus achieved with
minimum energy consumption and correspondingly reduced
operating costs.
An intelligent sensor network monitors the air and
water temperatures, as well as the water flow rate and
leakage management.
The incorporation of three temperature sensors for the
hot and cold air provides for redundancy. An
integrated fail-safe mode, furthermore, ensures
reliable cooling, even in case of failure of the
electronics.
The monitoring and alarm management for all physical
parameters is realised via SNMP and Ethernet. A BACnet
link is possible as an option.
New control algorithms permit energy-efficient
operation and take into account the demands of
facility management.
To enable the displaying of all physical parameters,
an optical colour touchscreen can be integrated into
the front of the unit.
The optimised layout provides for fast and simple
maintenance and service for all relevant components.
The fans can be exchanged at any time in a matter of
seconds, also during operation (hot swapping).
The temperature sensors in the water inlet/return are
integrated into thermowells and can similarly be
exchanged without interrupting operation.
Technical specifications:
TopTherm LCP Inline CW:
The design of the unit is optimised for use in data
centres. The integrated air/water heat exchanger
guarantees a cooling output of up to 60 kW, combined
with standard server enclosure dimensions, the lowest
possible weight and comprehensive possibilities for
monitoring.
The air/water heat exchanger is mounted on the side of
the rack.
LCP Inline draws the hot server air in via a
perforated rear door.
The front of the unit protrudes approx. 200 mm in
front of the server racks; the cooled air is expelled
left and right, over the whole enclosure height, in
front of the perforated doors of the server racks and
is thus made available to the 482.6 mm (19") equipment
once more.
The use of four integrated EC fan modules (cooling
output up to 40 kW) achieves maximum efficiency and
minimises the electrical energy consumption.
The unit is prepared for the incorporation of a
maximum of six EC fan modules (cooling output up to 60
kW). For this reason it is possible to retrofit two
additional fan modules up to full configuration and
achieving the optimum cooling output.
This safeguards the value of an investment where the
full cooling output is not yet required at the time of
initial operation.
The flow characteristics of the heat exchanger have
been optimised for the minimum possible pressure loss
on the air side. This in turn minimises the energy
consumption of the fans.
The high-performance heat exchanger guarantees maximum
cooling output even at high water inlet temperatures,
enabling the proportion of operation in combination
with indirect free cooling to be maximised and
operating costs reduced accordingly.
The air/water heat exchanger and server rack remain
separate from each other. This eliminates the risk of
water penetrating into the server rack and improves
the ease of installation and service.
Leakage management is integrated.
The water connection can be realised optionally to the
top or bottom by way of an accessory kit
(1 1/2" thread).
Fast commissioning of the unit thanks to fast and
simple air bleeding.
The standard integrated software/controller concept
provides for automatic control of the specified server
air intake temperature. The fan speed and cooling
water flow rate are both infinitely variable, for
precise matching to the power losses of the components
installed in the IT rack.
The optimum operating point is thus achieved with
minimum energy consumption and correspondingly reduced
operating costs.
An intelligent sensor network monitors the air and
water temperatures, as well as the water flow rate and
leakage management.
The incorporation of three temperature sensors for the
hot and cold air provides for redundancy. An
integrated fail-safe mode, furthermore, ensures
reliable cooling, even in case of failure of the
electronics.
The monitoring and alarm management for all physical
parameters is realised via SNMP and Ethernet. A BACnet
link is possible as an option.
New control algorithms permit energy-efficient
operation and take into account the demands of
facility management.
To enable the displaying of all physical parameters,
an optical colour touchscreen can be integrated into
the front of the unit.
The optimised layout provides for fast and simple
maintenance and service for all relevant components.
The fans can be exchanged at any time in a matter of
seconds, also during operation (hot swapping).
The temperature sensors in the water inlet/return are
integrated into thermowells and can similarly be
exchanged without interrupting operation.
Technical specifications: