MTD ERV 350, ERV 365 manual Menu P1 ! Status of the functions, Menu P2 ! Set time delays

Page 15

 

 

 

 

 

2

Menu P1 ! Status of the functions

 

 

 

 

 

 

 

 

 

 

 

 

Ventilation functions

Sub-menu

Description

 

 

Activated / not activated

P10

Menu 20 currently active?

 

Yes (1) / No (0)

 

P11

Menu 21 currently active?

 

Yes (1) / No (0)

 

P12

Menu 22 currently active?

 

Yes (1) / No (0)

 

P13

Menu 23 currently active?

 

Yes (1) / No (0)

 

P14

[Not available]

 

 

[Not available]

 

P15

Menu 25 currently active?

 

Yes (1) / No (0)

 

P16

Menu 26 currently active?

 

Yes (1) / No (0)

 

P17

Menu 27 currently active?

 

Yes (1) / No (0)

 

P18

Menu 28 currently active?

 

Yes (1) / No (0)

 

P19

Menu 29 currently active?

 

Yes (1) / No (0)

 

Menu P2 ! Set time delays

 

 

 

 

 

 

 

Time delay values

Sub-menu

Description

 

Minimum Maximum

Default

 

 

 

 

 

setting

 

P20

Deactivation delay for extractor hood

 

0 Min. 180 Min.

30 Min.

 

(Option)*

function.

 

 

 

'x' minutes after pressing the extrac- tor hood switch, the MTD-ERV 350 returns to the previously set level.

P21

Activation delay for the bathroom

0 Min.

15 Min.

0 Min.

(Option)*

switch(toswitchtotheHIGHESTLEVEL).

 

 

 

Note:

• 'x' minutes after turning on the

 

 

 

bathroom switch, the MTD-ERV 350

 

 

 

Only for systems with wired

switches to the HIGHEST LEVEL.

 

 

 

switch and only if your system is

 

 

 

 

equipped with a second position

 

 

 

 

switch in the bathroom.

 

 

 

 

P22

Deactivation delay for the

0 Min.

120 Min.

30 Min.

(Option)*

bathroom switch (to switch to the NOR-

 

 

 

Note:

MAL LEVEL).

 

 

 

• 'x' minutes after turning on the bath-

 

 

 

Only for systems with wired

room switch, the MTD-ERV 350 re-

 

 

 

switch and only if

turns to the NORMAL LEVEL.

 

 

 

your system is equipped with

 

 

 

 

a second position switch in the

 

 

 

 

bathroom.

 

 

 

 

P23

Deactivation delay

0 Min.

120 Min.

30 Min.

Note:

for ventilation position 3.

 

 

 

• Whenposition3(HIGHESTLEVEL)is

 

 

 

Only for systems with a wired

switched on briefly (< 3 seconds), the

 

 

 

position switch.

MTD-ERV 350remainsatthisposition

 

 

 

 

for the time set in this menu.

 

 

 

 

If, within the run-down time, the posi-

 

 

 

 

tion switch or the radio remote control

 

 

 

 

is activated, the MTD-ERV 350 switches

 

 

 

 

immediately to the set ventilation level.

 

 

 

 

 

 

 

 

P24

Filter warning

1 week

26 weeks

16weeks

 

• Heretheusercanselectwhen"FILTER

 

 

 

 

DIRTY" is to appear on the CC Ease

 

 

 

 

display.

 

 

 

Instructions for the User 11

Image 15
Contents MTD-ERV 350 All rights reserved Table of Contents Checking the Scope of Supply Foreword CE SymbolWarranty and Liability Warranty will be voided ifSymbols Used SafetySafety Precautions SafetyInstallationsandSafetyMeasuresDefinition of Terms Moisture Recovery Option Available Operating AidsCC Ease Operating Unit 2 3-position Switch Option ReadingandSettingComfortTemperature Setting Date and TimeReading off the comfort temperature Bathroom Switch OptionReading off the ventilation level Setting the comfort temperatureReadingandSettingVentilationLevel Setting the ventilation levelSwitchingSupplyandExhaustAirFansOn and Off Switching Extractor Hood On and Off OptionWeekday fan position Weekend fan position Setting Ventilation ProgrammeReturn to the main window Access to the P menusMaking settings in the P menus Setting Additional Functions via the P MenusMenu P1 ! Status of the functions Menu P2 ! Set time delaysMenu P9 ! Status of the functions from menu P5 Setting Ventilation Using Bathroom Switches Use of the Switches OptionService by the User Setting Ventilation Using 3-position SwitchesFor cleaning For replacementCleaning or Replacing Filters Malfunctions Cleaning Valves in the Home2 3-positionSwitchwithMalfunctionLED On the position of the valvesWhat to Do in the Event of a Malfunction? End of Service LifeControlled Ventilation System Components of the Balanced Ventilation SystemMTD-ERV MTD-ERV 350 Methods of Operation Additional OptionsPreheater in MTD-ERV Post-heater* in Duct System Ventilation via Extractor HoodRH Sensor* in the Home 4 CO2 Sensor* in the HomeUnderground Geothermal Heat Exchanger Technical Specifications Power supply Dimension Sketch Checking the Scope of Supply Preconditions for InstallationInstallation of the MTD-ERV Transport and UnpackingWall Mounting Connection of the Air DuctsConnection of the Condensation Drain MTD-ERV 350 Right Commissioning the MTD-ERVSelect a value for the parameter with or Menu P3 ! Set ventilation controls Menu P4 ! Read off the temperatures % and ppmMenu P5 ! Setting additional control functions Menu P7 ! Read off malfunctions and system information Menu P6  Setting additional control functionsExplanation Menu P8  Open-loop and closed-loop controlSetting the Air Specifications Maintenance by the InstallerInspection of Heat Exchanger and Fans MTD-ERV 350 R MTD-ERV 350 LFilter Cleaning, if Preheater is Fitted Code Description Malfunction Indications on the CC Ease DisplayAvoid contact with the PCB Malfunction indications on the CC Ease Display à RemedyReset unit MIN MED T1 OK? A0 / A10 / A11 Problem/Malfunction Cause Check / measure Malfunctions or Problems without IndicationsNumber Part Spare PartsSupply air Wiring Diagram MTD-ERV 350 LEFT-HAND Standard VersionSupply air Wiring Diagram MTD-ERV 350 LEFT-HAND Luxury VersionWiring Diagram MTD-ERV 350 RIGHT-HAND Standard Version Wiring Diagram MTD-ERV 350 RIGHT-HAND Luxury Version EC Declaration of Conformity EC Declaration of ConformityPage

ERV 350, ERV 365 specifications

The MTD ERV 365 and ERV 350 are advanced energy recovery ventilation (ERV) systems designed to enhance indoor air quality and energy efficiency in residential and commercial buildings. These units utilize cutting-edge technologies to transfer heat and moisture between incoming and outgoing air streams, optimizing the temperature and humidity levels of the conditioned air.

One of the main features of the MTD ERV 365 is its high energy recovery efficiency. Equipped with a specially designed heat exchanger, this ERV can reclaim a significant portion of the energy from the exhaust air, reducing the heating and cooling load on HVAC systems. This results in lower energy bills and decreased environmental impact. The ERV 350 offers similar benefits but is tailored for slightly smaller spaces, making it suitable for various residential applications.

Both models are constructed with durability in mind, featuring robust housing and weather-resistant materials that ensure long-lasting performance. The MTD ERV series is designed to withstand varying environmental conditions, ensuring reliable operation in challenging climates. Additionally, noise-reduction technology minimizes operational sounds, promoting a peaceful indoor environment.

User-friendly controls are another highlight of the MTD ERV systems. They come equipped with intuitive interfaces, allowing users to easily adjust settings, monitor performance, and receive maintenance notifications. Advanced sensors provide real-time data on indoor air quality parameters, ensuring optimal operation based on the specific needs of the environment.

Installation and maintenance are made straightforward with these ERV units. They feature a compact design that facilitates integration into existing HVAC systems or new constructions. Filters are easily accessible for routine cleaning or replacement, maintaining peak performance over time.

Furthermore, both the MTD ERV 365 and ERV 350 are designed with sustainability in mind. Using materials that are recyclable and energy-efficient components contributes to a reduced carbon footprint. These ERV systems also comply with various building codes and standards, ensuring they meet industry requirements for safety and efficiency.

In summary, the MTD ERV 365 and ERV 350 are sophisticated energy recovery ventilation solutions that combine advanced technologies and user-friendly features. With high energy recovery efficiency, durable construction, and easy integration, they stand out as models for improving indoor air quality and energy efficiency in a variety of settings.