Member Since: 23 Dec 2008
Location: Aberdeenshire
Posts: 366
Interesting that those from an automotive/mechanical (I presume) background say HEVAC. I'm used to HVAC form ('H-VAC') from the oil and gas industry terminology.If in doot, flat oot!!
17th Feb 2013 11:39 am
DG Site Moderator
Member Since: 12 Dec 2005
Location: The Gaff
Posts: 50978
LR themselves use HEVAC ...I assume they are the same thing and the E is actually inserted from the 'e' in heating .....presumably just to make it easier to say. 21 year LR veteran > D2 GS 2003 > D3 S 2006 > D3 HSE 2009 > D4 HSE 2013 > D4 HSE 2015 > D5 HSE 2018 > DS HSE R-Dynamic P300e 2021
17th Feb 2013 11:52 am
Landylad
Member Since: 23 Dec 2008
Location: Aberdeenshire
Posts: 366
DG wrote:
LR themselves use HEVAC ...I assume they are the same thing and the E is actually inserted from the 'e' in heating .....presumably just to make it easier to say.
Yeah, that's what it'll be. I always thought it amusing that this Mech Engineer I worked with overseas kept on referring to it as HEVAC. First time I had heard it said that way.If in doot, flat oot!!
17th Feb 2013 1:06 pm
Robbie
Member Since: 05 Feb 2006
Location: ¯\_(ツ)_/¯
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Does anyone have the MY13 Topix for the FBH, cooling and HEVAC system?Land Rover - Turning Drivers into Mechanics Since 1948
Member Since: 05 May 2009
Location: Bergen
Posts: 1509
Looking in the parts catalog, it looks like the internals of the burner are the same so my theory about being a TT evo is shot down, Evo uses a ceramic disk rather than a venturi.
But there is an addation of an extra valve, this maybe a "island valve" which concentrates the the flow around the cars heating matrix = smaller volume to warm up rather than a larger volume on the D3.
Only a theory though.
GlenIDTOOL PRO / Faultmate programing and BAS remaping services in Norway.
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D4 gone, missed but replaced with a 110 Puma.
17th Feb 2013 5:47 pm
Robbie
Member Since: 05 Feb 2006
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Hi Glen,
Not a bad theory as feeling around the pipes today seems to support it. Need a cold day and my trusty Fluke IR to make a better effort of tracing the flow but hopefully someone has the relevant Topix chapters. At the moment it appears the flow is to the matrix alone, albeit some surrounding pipes are slightly warmed too. It's all a bit more convoluted than the D3.
I bust my left hand a few weeks back so doing anything under the bonnet is a bit awkward.Land Rover - Turning Drivers into Mechanics Since 1948
Member Since: 25 Jan 2008
Location: Zalesie
Posts: 7
Hi guys. I am new to forum, but I read it for years.
In my D4 2012MY, with FBH remote fob (fitted myself month ago) is standard running time about 15-17 mins, depends on outside temperature. (when its -4 degC or less) Running time is the same if switched on by remote fob or display timer. Coolant temp is getting max to 35degC. Battery voltage is dropping to 12.1V. No warnings about low battery. I checked Topix, yes, if Parking hetar is factory fitted, then there is valve and few more houses to close circulation just for heating radiator on the beginning of heating, then opens to heat up engine as well. In Topix you can also find fitting instructions how to fit parking heater option with remote fob as LR accesorie. Steps are the same as written in some posts here, to fit receiver and antena, pair fob with it and anable in CCF. Problem with short runniňg time is, that when outside is -5degC or less, after short heating time is not engine heated enough for quality and problemless start. This about 15mins heating is not enough time to defrost all of car windows, but in interior you can feel little bit warm air and front screen is nearly defrosted.Â
Starting car is not smooth as coolant temperature sensor is signaling warm coolant, so glow plugs are not activated while combustion space is still cold. Starting is hard, lot of smoke and few engine runs needed to start the engine. terrible!
I tried to change battery monitoring element to prevent switching off heater because of low voltage. Based on this tread http://www.disco3.co.uk/forum/topic86528.html I changed bms to LR037867. This brought me the same heater running time but much more "low battery" messaging. So I thing I will change it to original bms.
Compared to our RRS 2006 where I fitted Pete Bells FBH controller: Running time is 30 mins, coolant is getting to 70degC on the end of heating. No problems to start the engine, hot air blowing to cabin right after engine start. This suits my neefs much better then as its in D4.
For now I have no idea what is swithching my heater sooner then full 20mins runnig time is.RRS 2006 TdV6
D4 TdV6 2012
17th Feb 2013 7:43 pm
Robbie
Member Since: 05 Feb 2006
Location: ¯\_(ツ)_/¯
Posts: 17932
Hi jezbera,
Thanks for the information and given the Webasto videos they accept that it takes 30 min to clear the screen and the D4 is a fair size car for an Evo 5 - their site recommends the Evo 5+ for vehicles this size.
Do you have the ability to pdf and post the relevant Topix entries?Land Rover - Turning Drivers into Mechanics Since 1948
Member Since: 25 Jan 2008
Location: Zalesie
Posts: 7
Hi, I think VEvo is powerful enough to defrost D4, just running time less then 20 min is too short. 30mins would be fine. Also fans are running too high revs, the same revs from beginning, when coolant is still cold.
No I don't have any free access to Topix, I pay for it every time I need it.RRS 2006 TdV6
D4 TdV6 2012
18th Feb 2013 8:57 pm
Robbie
Member Since: 05 Feb 2006
Location: ¯\_(ツ)_/¯
Posts: 17932
Yes, I agree the time is the greatest weakness and it would help if the heat was allowed to build before the fans went to full blast.
I think Land Rover need to try harder with this.Land Rover - Turning Drivers into Mechanics Since 1948
Member Since: 12 Dec 2005
Location: The Gaff
Posts: 50978
Some bedtime reading for you Robbie
Quote:
OPERATION
The FFBH system operates in two modes:
Provides additional heating by boosting heater performance while the engine is running.
If fitted; parked heating heats the passenger compartment or engine while the vehicle is parked with the engine off.
The ATC module disables FFBH operation if battery voltage is too low, as determined from an ambient air temperature, dependent voltage-map. Where fitted, the battery monitoring system can also disable FFBH operation based on the battery charge state with the engine off.
Parked Heating/Ventilation
Parked heating works in conjunction with parked ventilation. When parked heating/ventilation is selected, the vehicle interior is either heated by parked heating or cooled by parked ventilation, depending on the ambient temperature. Parked heating occurs if the ambient temperature is less than 16 °C (61 °F); parked ventilation occurs if the ambient temperature is 16 °C (61 °F) or more.
Parked heating/ventilation is controlled by direct selection on the (TSD) Touch Screen Display. This is achieved by using the TSD to program one or two 'on/off' cycle start-times per day, and one 'on/off' cycle start-time further in the future.
The direct selection and programmed time modes of operation are selected when the engine is stopped and the smart key is in the vehicle. The key can then be removed and the vehicle locked. Any timed event will automatically run without the key inside the vehicle.
In all operating modes, to prevent excessive drain on the battery, parked heating/ventilation is automatically de-activated after:
20 minutes in moderate climate conditions, and
after 30 minutes in climates where the ambient temperature regularly falls below minus 25 °C (minus 13 °F).
Parked ventilation is automatically de-activated when the ignition is switched on.
When programmed start times for parked heating/ventilation are entered on the TSD, the times are stored in the CJB.
If the engine is started while parked heating is on and:
the engine coolant temperature is equal to or more than the heater coolant temperature, parked heating is switched off.
the engine coolant temperature is less than the heater coolant temperature, parked heating remains on until the engine coolant temperature reaches the heater coolant temperature. The changeover valve also remains closed until the engine coolant temperature reaches the heater coolant temperature.
Parked heating/ventilation can also be operated by using the FFBH remote handset.
Programmed Parked Heating/Ventilation
At a programmed parked heating/ventilation start time, the EJB (engine junction box) sends a start signal to the ATC module on the medium speed CAN.
On receipt of the message:
If the ambient temperature is less than 16 °C (61 °F) and more than -20 °C (-4 °F), the ATC module initiates parked heating and:
Energizes the changeover valve.
Sends a CAN bus message to activate the FFBH.
Operates the blower at 47% of the maximum speed.
Operates the distribution doors in the heater assembly to direct the air to the footwells for approximately 30 seconds, then to either only the windscreen, or to both the footwells and the windscreen, depending on the ambient air temperature.
Flashes the auto blower LED at 2 Hz.
If the ambient temperature is -20 °C (-4 °F) or below, the ATC module sends a CAN bus message to activate the FFBH, but leaves the changeover valve de-energized and does not operate the blower or distribution doors. Heated coolant is circulated around the engine and heater core(s) to heat the engine and improve engine starting.
Once the FFBH coolant temperature is above a suitable threshold the cabin blower is switched on and cabin heating commenced.
If the ambient temperature is 16 °C (61 °F) or more, the ATC module initiates parked ventilation and:
Operates the blower at 47% of maximum speed.
Operates the distribution doors in the heater assembly to direct the air to the face level outlets.
Flashes the A/C (air conditioning) distribution LED at 2 Hz.
After 20 minutes in moderate climate conditions and after 30 minutes in climates where the ambient temperature regularly falls below minus 25 °C (minus 13 °F), the ATC module stops the parked heating/ventilation:
If parked heating is active, the ATC module:
Sends a CAN bus message to de-activate the FFBH.
Switches off the blower.
Returns the distribution doors to the previous settings.
After 3 minutes, de-energizes the changeover valve.
If parked ventilation is active, the ATC module:
Switches off the blower.
Returns the distribution doors to the previous settings.
Remotely Selected Parked Heating/Ventilation
When parked heating/ventilation is selected 'on' with the remote handset, the request is received by the FFBH receiver via the TV antenna and TV antenna amplifier. The FFBH receiver relays the request as a hardwired signal to the FFBH control module. On receipt of the request, the FFBH control module sends the request to the ATC module on the CAN bus. The ATC module then determines if parked heating or ventilation is required.
Operation of the FFBH is controlled by a status message from the automatic temperature control (ATC) module to the control module. A similar status message, from the control module to the ATC module, advises the ATC module of the current operating status of the FFBH.
While the engine is running, if the ambient air temperature is less than 9 °C (48 °F) and the engine coolant temperature (ECT) is less than 75 °C (167 °F) the ATC module changes the status message from 'heater off' to 'supplemental heat'. The control module then changes the status message it sends the ATC module to 'supplemental heat' and starts the FFBH. The control module will not start the FFBH, or will discontinue operation, if any of the following occur:
The control module is in the error lockout mode (see Diagnostics, below).
A crash message is received from the restraints control module (RCM).
For additional information, refer to: Air Bag and Safety Belt Pretensioner Supplemental Restraint System (SRS) (501-20B, Description and Operation).
A low fuel level message is received from the instrument cluster.
For additional information, refer to: Information and Message Center (413-08, Description and Operation).
The engine is not running, or stops running for approximately 4 seconds. The time delay is included for stall protection.
If the control module does not start the FFBH, or discontinues operation, the status message to the ATC module remains at, or changes to, 'heater off'. If the ambient air temperature increases to 9 °C (48 °F), or the ECT increases to 75 °C (167 °F), the ATC module cancels supplementary heating, by changing the status message to the control module back to 'heater off'. The control module then cancels FFBH operation and changes the status message to the ATC module to 'heater off'.
The FFBH is controlled at one of two heat output levels, 2.8 kW at part load combustion and 5 kW at full load combustion. The control module transmits the FFBH coolant temperature to the ATC module.
Start Sequence: At the beginning of a start sequence, the control module energizes the glow pin function of the glow pin and flame sensor, to pre heat the combustion chamber, starts the combustion air fan at slow speed and energizes the coolant circulation pump. After approximately 30 seconds, the control module energizes the auxiliary fuel pump at the starting sequence speed. The fuel delivered by the auxiliary fuel pump evaporates in the combustion chamber, mixes with air from the combustion air fan and is ignited by the glow pin and flame sensor. The control module then progressively increases the speed of the auxiliary fuel pump and the combustion air fan. Once combustion is established the control module switches the glow pin and flame sensor from the glow pin function to the flame sensing function to monitor combustion. From the beginning of the start sequence to stable combustion at full load takes approximately 240 seconds.
Coolant Temperature Control: While the FFBH is running, the control module cycles the FFBH between full load combustion, part load combustion and a control idle phase of operation, depending on the temperature of the coolant in the heat exchanger.
Switching Point Temperature, °C (°F)
Figure Item No. Description
1 Full load to part load 84 (183)
2 Part load to control idle 88 (190)
3 Control idle to part load 78 (172)
4 Part load to full load 74 (165)
After the start sequence, the control module maintains full load combustion until the coolant temperature reaches switching point temperature 1. At this temperature, the control module decreases the speed of the auxiliary fuel pump and the combustion air fan to half speed, to produce part load combustion. The control module maintains part load combustion while the coolant temperature remains between switching point temperatures 2 and 4. At part load combustion the temperature of the coolant will increase or decrease depending on the amount of heat required to heat the vehicle interior. If the coolant temperature decreases to switching point temperature 4, the control module increases the speed of the auxiliary fuel pump and the combustion air fan to full speed, to return to full load combustion. If the coolant temperature increases to switching point temperature 2, the control module enters a control idle phase of operation.
On entering the control idle phase, the control module immediately switches the auxiliary fuel pump off, to stop combustion, and starts a timer for the combustion air fan. After a 2 minute cool down period, the control module switches the combustion air fan off and then remains in the control idle phase while the coolant temperature remains above switching point temperature 3. If the coolant temperature decreases to switching point temperature 3, the control module initiates a start to part load combustion. A start to part load combustion takes approximately 90 seconds.
In order to limit the build up of carbon deposits on the glow pin and flame sensor, the control module also enters the control idle phase if continuous combustion time exceeds 72 minutes (at part load, full load or a combination of both). After the cool down period, if the coolant is still in the temperature range that requires additional heat, the control module restarts the FFBH.
Shutdown: To stop the FFBH, the control module de-energizes the auxiliary fuel pump to stop combustion, but continues operation of the combustion air fan and the coolant circulation pump for a time, to cool down the FFBH. The cool down time is 100 seconds if the FFBH was operating at part load combustion and 175 seconds if the FFBH was operating at full load combustion.
DIAGNOSTICS
The control module monitors the FFBH system for faults. Any faults detected are stored in a volatile memory in the control module, which can be interrogated by approved diagnostic equipment via the medium speed CAN bus. A maximum of three faults and associated freeze frame data can be stored at any one time. If a further fault is detected, the oldest fault is overwritten by the new fault.
The control module also incorporates an error lockout mode of operation that inhibits operation to prevent serious faults from causing further damage to the system. In the error lockout mode, the control module immediately stops the auxiliary fuel pump, and stops the combustion air fan and coolant circulation pump after a cool down time of approximately 2 minutes. Error lockout occurs for start sequence failures, combustion flameouts, heat exchanger casing overheat and if battery voltage is out of limits. The error lockout mode can be cleared using approved diagnostic equipment.
Start Failure and Flameout: If a start sequence fails to establish combustion, or a flameout occurs after combustion is established, the control module immediately initiates another start sequence. The start failure or flameout is also recorded by an event timer in the control module. The event timer is increased by one after each start failure or flameout, and decreased by one if a subsequent start is successful. If the event timer increases to three (over any number of drive cycles), the control module enters the error lockout mode.
Heat Exchanger Casing Overheat: To protect the system from excessive temperatures, the control module enters the error lockout mode if the heat exchanger coolant temperature exceeds 125 °C (257 °F).
Member Since: 05 Feb 2006
Location: ¯\_(ツ)_/¯
Posts: 17932
Ok, finished. What do I get next?
I wonder if the 20 / 30 min timing option is a market CCF setting rather than an actual temperature reading?
This topix entry was written before the latest 17 min run-time. With a formal start time of 4 minutes LR are treating us to a whole 13 minutes of heat.
I hope someone finds a way of changing the timing somehow.
Thanks DG.
Land Rover - Turning Drivers into Mechanics Since 1948
Member Since: 12 Dec 2005
Location: The Gaff
Posts: 50978
I have to say I leave my controls on 23oC (as recommended by Geoff) and it is blowing in warm air ...even Mrs DG was impressed ...which is hard 21 year LR veteran > D2 GS 2003 > D3 S 2006 > D3 HSE 2009 > D4 HSE 2013 > D4 HSE 2015 > D5 HSE 2018 > DS HSE R-Dynamic P300e 2021
25th Feb 2013 5:32 pm
dangerdave
Member Since: 23 Nov 2010
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