Technical Monitoring Procedures

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Monitoring ProceduresInformation for Teams

March 2012


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SOLAR DECAHTLONEUROPE

Monitoring Procedures

Information for Teams

Monitoring Team Organization

Abstract

This document describes the monitoring procedures to be taken into account by every Team

in Solar Decahtlon Europe 2012.

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SOLAR DECAHTLONEUROPE Contents

Contents

Contents 2

1 Introduction 3

2 Summary 3

3 Monitoring Architecture 5

4 Sensors 6

5 Monitoring 8

6 Scoring 11

7 Location and dimensions 20

8 Wiring 25

9 Monitoring Drawings 27

10 Instrumentation Plan and Approval 27

A Monitoring CheckList 29

B Monitoring Plans Examples 30

C Datasheets 35

C.1 Twido PLCdatasheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

C.2 TJ MONITORdatasheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40

C.3 Domotax datasheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45

C.4 STR100 datahseet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46

C.5 SCR110-H datasheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48

C.6 LLS datasheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52

C.7 EN40P datasheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56

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Introduction SOLAR DECAHTLONEUROPE

1. Introduction

A significant part of the scoring of the competition consists on the measurement of different items

and the correct performance of several tasks. The Monitoring system is responsible for controlling

these measurements. This document describes, in an exhaustive way, the monitoring procedures

to be carried out by the Organization and the Teams. Moreover, this document has been designed

taking into account different factors, such as the conversations carried out in the October 2011

workshop, pros and cons found in previous Solar Decathlon editions and information obtained

from Teams by private conversations, SDE WAT, deliverables, etc.

Due to the aforementioned factors, some important constraints have been decided by the

Organization with the sole purpose of implementing a robust monitoring system that plays on

the benefit of the Teams and the Organization. The most important modification is related

to the monitoring datalogger location (monitoring panel from now on). The Organization has

decided that Teams must provide enough space to locate the monitoring panel inside the house

(see Section 7 for detailed information). This fact together with some minor modifications will

increase robustness in the system and the Organization expects that Teams agree on the monitoring

description improvement. Moreover, in order to achieve a correct Monitoring Plan and Approval

(see Section 10), a Monitoring Procedures Checklist has been designed and it is presented in

Appendix A. Finally, the number of drawings related to the monitoring procedures has been

increased and they are explained in Section9 and examples are presented in AppendixB.

In case that minor adjustments or modifications to this document are made, they will be

notified and updated through the SDE WAT. Nonetheless, the SDE 2012 Organization will be

accessible to clarify any procedure with the Teams at any time.

2. Summary

This section provides a summary of the present document where the sensors brand and model,

their locations, the variables to be monitored and the acquisition and scored period1are presented.

Table1 gives an overview of the complete monitoring system, although an exhaustive description

is presented in the rest of the document.

1Within the scored period defined in SDE 2012 Rules

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SOLAR DECAHTLONEUROPE Summary

Contest

Brand

Model

Location

Acquisitiontime

Scoringtime

Variables

4.

ElectricalEnergyBalance

Orbis

Domotax

Monit

oringPanel

Everyminute

Endofcompetition

EG,EL,EB

5.1Temperature

Schneid

erElectric

SCR110-H

Living

Room

Everyminute

Every15minutes1

Troom1

Schneid

erElectric

STR100

Bedro

om

Everyminute

Every15minutes1

Troom2

5.2Humidity

Schneid

erElectric

SCR110-H

Living

Room

Everyminute

Every15minutes1

Hroom1

5.3AirQuality

Schneid

erElectric

SCR110-H

Living

Room

Everyminute

Every15minutes1

Qroom1

5.4WorkstationLighting

Trend

LLS

Workstationtable

Everyminute

Endofperiods

Lwork

5.5AcousticPerformance

Tobed

efined

Laboratory

Tobe

defined

Onceincompetition

Onceincompetition

Dhouse

6.1Refrigerator

Tobed

efined

Thermocouple

Refrig

erator

Everyminute

Every15minutes

Tfridge

6.2Freezer

Tobed

efined

Thermocouple

Freeze

r

Everyminute

Every15minutes

Tfreezer

6.3ClothesWasher

Tobed

efined

Thermocouple

WashingMachine

Everyminute

Everytask

TWM

6.4ClothesDryer

Tobed

efined

Scale

Tobe

defined

Endofperiods

Everytask

Wdryer

6.5Dishwasher

Tobed

efined

Thermocouple

Dishw

asher

Everyminute

Everytask

TDW

6.6HomeElectronics

Schneid

erElectric

EN40P

Electr

icBox

Everyminute

Endofperiods

EHE

6.7Oven

Tobed

efined

Thermocouple

Oven

Everyminute

Everytask

Toven

6.8Cooking

Tobed

efined

Scale

Tobe

defined

Endofperiods

Everytask

Wcook

6.9HotWaterDraws

Tobed

efined

Thermocouple

Tobe

defined

Endofperiods

Everytask

Thw

Table1:MonitoringPro

ceduresDocumentsummary

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Monitoring Architecture SOLAR DECAHTLONEUROPE

3. Monitoring Architecture

This section provides an schematic view of the monitoring devices to be installed in every house

in the SDE 2012 competition. The monitoring architecture for the Villa Solar is presented in

Figure 1. Two different power lines will be connected to each house: the first one will connect

the house to the grid while the second one will be used to power the monitoring devices, whose

consumption is not taken into account in the energy related contests. Moreover, three different

Ethernet lines will be connected to the house. The first one will be used by the Teams, while the

other two will be used by the monitoring system.

Figure 1: Monitoring architecture for the Villa Solar.

Every team should provide detailed information about the wiring procedures in order to allow

the power and data lines arrive correctly to their houses (see Section 8 and Section10).

The monitoring architecture for every house is based on two main elements:

Twido PLC: An industrial Twido PLC with extension boards from Schneider-Electric 2

(see AppendixC.1).

TJ MONITOR : An ad-hoc designed board based on the SAM9G20 module from RBZ

Robot Design 3 (see AppendixC.2).

TJ MONITORwill be in charge of acquiring the electricity meters variables related to Contest

4. On the other hand, the Twido PLCwill be in charge of getting all the automated monitoring

variables related to Contest 5 and Contest 6. Moreover, TJ MONITORwill retrieve the informa-

tion from the Twido PLCand send all measurements (i.e. its own acquired data and the data

provided by the PLC) to the monitoring server. The monitoring architecture for one house is de-

picted in Figure2. Notice that both TJ MONITORand Twido PLCwill have their own Ethernet

connection.

Variables not acquired by the automated monitoring system will be obtained and sent to the

monitoring server by observers (see Figure2).

2

http://www.schneider-electric.com3http://www.rbz.es

5
http://www.schneider-electric.com/http://www.rbz.es/http://www.rbz.es/http://www.schneider-electric.com/


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SOLAR DECAHTLONEUROPE Sensors

TJ MONITOR

TWIDO PLC Air Quality

Temperature

Humidity

ElectronicsHome

Oven

Lighting

RefrigeratorMachineWashing

Freezer Dishwasher

PVMeter Meter

LOADsMeter

BATTERY

MONITORING

SERVER

Acoustic

Hot Water

Cook

Dryer

Ethernet 1

Ethernet 2

Power

Data Acquisitionover Ethernet

RS485 RS485 RS485

OBSERVERS

Figure 2: Monitoring architecture for a house.

4. Sensors

In this section, the sensors used to monitor the different contests are described. A summary of

these sensors have been shown in Section 2.

Contest 4: Electrical Energy Balance. This contest will be scored based on the mea-surements obtained from two or three AC electricity meters installed in each house 4. The

meters selected are the single phase multi-function energy and tariffDomotaxmeters from

ORBIS 5 (see AppendixC.3 6). Notice that these meters (and their configuration) are based

on typical photovoltaic configurations discussed in the last workshop (see Figure3). Special

configurations will be discussed individually with each team.

Sub-Contest 5.1: Temperature. This contest will be scored based on the measurements

obtained from two NTC sensors. One sensor will be located in the main room while the

second will be located in a secondary room. The NTC sensor located in the secondary room

is theSTR100sensor fromSchneider Electric7(see AppendixC.4). The NTC sensor located

in the main room is the SCR110-H sensor from Schneider Electric7, which integrates ahumidity, a CO2 and a temperature sensor (see Appendix C.5).

Sub-Contest 5.2: Humidity. This contest will be scored based on the measurements

obtained from a thin-film capacitive sensor located in the main room. The sensor to be used

is theSCR110-Hsensor from Schneider Electric7, which integrates a humidity, a CO2 and

a temperature sensor (see AppendixC.5).

4See Section5 to check the use of two or three electricity meters.5http://www.orbis.es6

Datasheet in English is found in http://www.orbis.es/ficha.aspx?id=1097http://www.schneider-electric.com

6
http://www.orbis.es/http://www.orbis.es/ficha.aspx?id=109http://www.schneider-electric.com/http://www.schneider-electric.com/http://www.orbis.es/ficha.aspx?id=109http://www.orbis.es/


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Sensors SOLAR DECAHTLONEUROPE

(a)

(b)

Figure 3: Standard photovoltaic configurations (a) with and (b) without electrical storage.

Sub-Contest 5.3: Air quality. This contest will be scored based on the measurements

obtained from a non-dispersive infrared sensor located in the main room. The sensor to be

used is theSCR110-Hsensor fromSchneider Electric7, which integrates a humidity, a CO2and a temperature sensor (see AppendixC.5).

Sub-Contest 5.4: Workstation Lighting. This contest will be scored based on the

measurements obtained from a light level sensor. The sensor to be used is the LLS sensor

from Trend 8 (see AppendixC.6).

Sub-Contest 5.5: Acoustic performance. This contest will be scored based on the

8https://www.trendcontrols.com

7
https://www.trendcontrols.com/https://www.trendcontrols.com/


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SOLAR DECAHTLONEUROPE Monitoring

measurements obtained according to the ISO 140-5:1998. This measurement will be carried

out once during the competition by a specific acoustic laboratory.

Sub-Contest 6.1: Refrigerator. This contest will be scored based on the measurements

obtained from a type K or Tthermocouple(75Cto +250C). The sensor will be located

inside the refrigerator.

Sub-Contest 6.2: Freezer. This contest will be scored based on the measurements ob-

tained from a type K or T thermocouple(75Cto +250C). The sensor will be located

inside the freezer.

Sub-Contest 6.3: Clothes Washer. This contest will be scored based on the measure-

ments obtained from a type K or T thermocouple (75C to +250C). The sensor will

be located inside the washing machine.

Sub-Contest 6.4: Clothes Dryer. This contest will be scored based on the measurementsobtained from a precision scale. The scale to be used will have a resolution of grams.

Sub-Contest 6.5: Dishwasher. This contest will be scored based on the measurements

obtained from a type K or Tthermocouple(75Cto +250C). The sensor will be located

inside the dishwasher.

Sub-Contest 6.6: Home Electronics. This contest will be scored based on the mea-

surements obtained from an electricity meter attached to the home electronics power line.

The meter to be used is the EN40Pfrom Schneider Electric7 with a 10 Wh resolution (see

AppendixC.7).

Sub-Contest 6.7: Oven. This contest will be scored based on the measurements obtainedfrom a type K or T thermocouple(75Cto +250C). The sensor will be located inside

the oven.

Sub-Contest 6.8: Cooking. This contest will be scored based on the ratings assigned

by the observers at the time of cooking. Therefore, no specific sensor will be used in this

sub-contest.

Sub-Contest 6.9: Hot water draws: This contest will be scored based on the measure-

ments obtained from a type K or T thermocouple(75Cto +250C).

5. Monitoring

Most of the variables to be monitored will be acquired every minute. However, in some cases

the measurements will be averaged (see Section6). In what follows, the monitoring procedures to

be carried out by the Organization are presented for each contest. Notice that this information is

only related to the monitoring process, while the scoring process is presented in Section 6.

Contest 4: Electrical Energy Balance. Three Sub-Contests are included in Contest 4:

Sub-Contest 4.1: Electricity Autonomy.

Sub-Contest 4.2: Temporary Generation-Consumption Correlation.

Sub-Contest 4.3: Load Consumption per Measurable Area.

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Monitoring SOLAR DECAHTLONEUROPE

All the information needed for the three sub-contest is obtained from the electricity meters

(see Section4). As aforementioned, the number of electricity meters to be installed depends

on each house configuration. Houses with a hard-wired battery bank, configured as Figure3a,will have three electricity meters (PV, Loads and Bat) and houses without it only two (PV

and Loads). The meter in charge of measuring the energy imported or exported to the

batteries will be a bidirectional meter, while the other two will be unidirectional meters.

Therefore, the monitoring system will get a total of 4 variables:

Energy generated by the PV system (EG).

Energy consumed by the Loads (EL).

Energy imported to the batteries (EBin optional).

Energy exported from the batteries (EBout optional)

These variables will be acquired every minuteby TJ MONITOR, regardless of the scored

period, and uploaded to the monitoring server to calculate the sub-contests scoring (see

Section6). Moreover, power variables (PG, PL and PB) associated to the energy variables

will be shown in the monitoring web site.

Remember that batteries can only be charged with PV energy during the shadows free

period. The SDE Organization will handle the measurements in order to subtract the energy

that enters from the grid to the batteries. Notice that special topologies will be treated

individually and special actions can be implemented in order to allow equanimity between

the Teams.

Sub-Contest 5.1: Temperature. The monitoring system will get a total of 2 variables

for this sub-contest:

Temperature in the main room (Troom1).

Temperature in the secondary bedroom (Troom2).

Sub-Contest 5.2: Humidity. The monitoring system will get one variable for this sub-

contest:

Humidity in the main room (Hroom1).

Sub-Contest 5.3: Air quality. The monitoring system will get one variable for this

sub-contest:

Indoor air quality in the main room (Qroom1).

Sub-Contest 5.4: Workstation Lighting. The monitoring system will get one variable

for this sub-contest:

Workstation lighting (Lwork).

Sub-Contest 5.5: Acoustic p erformance.

This sub-contest will not be connected to the automatic monitoring system and will be

evaluated only once during the SDE 2012 competition. An acoustic laboratory will carry

out the measurement and obtain the following variables:

Sound insulation (Dhouse).

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SOLAR DECAHTLONEUROPE Monitoring

Due to the final configuration of the house and all the Villa Solar components, the Orga-

nization will decide on-site, during Contest Week, the facade that will be evaluated for the

measurement.

Sub-Contest 6.1: Refrigerator. The monitoring system will get one variable for this

sub-contest:

Refrigerator temperature (Tfridge).

Sub-Contest 6.2: Freezer. The monitoring system will get one variable for this sub-

contest:

Freezer temperature (Tfreezer).

Sub-Contest 6.3: Clothes Washer. The monitoring system will get one variable for this

sub-contest: Washing machine temperature (TW M).

Teams must call the observer, before starting the task, to check everything is ready for its

accomplishment and to annotate the time at which the task starts and ends.

Sub-Contest 6.4: Clothes Dryer. This sub-contest will not be connected to the auto-

matic monitoring system. An observer from the Organization will carry out the measurement

and obtain the following variables:

Towels total weight before washing (Wi).

Towels total weight after drying (Wo).

Sub-Contest 6.5: Dishwasher. The monitoring system will get one variable for this

sub-contest:

Dishwasher temperature (TDW).



Sub-Contest 6.6: Home Electronics. The monitoring system will get one variable for

this sub-contest:

Home electronics consumption (EHE ).

Sub-Contest 6.7: Oven. The monitoring system will get one variable for this sub-contest:

Oven temperature (Toven).



Sub-Contest 6.8: Cooking. This sub-contest will not be connected to the automatic

monitoring system. An observer from the Organization will carry out the measurement and

obtain the following variables:

Pot weight before starting the task (Wi).

Pot weight once the task is considered completed (Wo).

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Scoring SOLAR DECAHTLONEUROPE

Sub-Contest 6.9: Hot water draws: This sub-contest will not be attached to the auto-

matic monitoring system. An observer from the Organization will carry out the measurement

and obtain the following variable: Water temperature (Thw).

6. Scoring

As aforementioned, the monitoring scoring depends on the scored periods defined in the SDE

2012 Competition Calendar. Therefore, the information presented in this section is related to the

current version of the SDE 2012 Rules. Any change done to the calendar may modify some of the

information provided in this section.

In what follows we present information about the monitoring scoring for every sub-contest

based on the last existing version of the Rules, SDE 2012 Rules.

Sub-Contest 4.1: Electricity Autonomy.

Figure 4: Contest 4.1 point distribution.

This sub-contest evaluates the electrical energy balance of the competition; hence two dif-

ferent variables are used:

Energy generated by the PV system (EG).

Energy consumed by the Loads (EL).

Moreover, to be equanimous with all Teams, EG will be truncated. EG is the truncatedenergy generated by the PV system (generation period being the one in which all houses arefree of shadows). Therefore, this sub-contest will be evaluated according to the following

equation: EG EL (1)Notice that the shadows free period has been established as the time interval between 10:00

and 16:00 in SDE 2012 Rules 9. If this period is modified, the variable truncation will be

adjusted to it.

Equation1will be calculated every minute, usingEG and EL as the energy generatedand consumed from the beginning of the competition. However, only its final value (i.e. at

the end of the competition) will provide Sub-Contest 4.1 scoring.

9Notice that energy consumption (EL) will not be truncated.

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SOLAR DECAHTLONEUROPE Scoring

Figure4 shows point distribution according to SDE 2012 Rules.

Sub-Contest 4.2: Temporary Generation-Consumption Correlation.

All electric variables are used in this sub-contest.

EGL is calculated as the electricity generated and simultaneously consumed by the loadswithin the predefined scored period (i.e. 10:00-16:00, defined in SDE 2012 Rules).

Moreover, in the case that a house embodies a hard-wired battery bank,EBLis calculatedas the electricity exported from the batteries to the loads within the predefined scored period

(i.e. 10:00-16:00, defined in SDE 2012 Rules) 10.

Finally, the temporary generation-consumption correlation is calculated as follows:

=EGL+EBL

EL

(2)

whereEL is the energy consumed by the loads truncated to the predefined scored period(i.e. 10:00-16:00, defined in SDE 2012 Rules) andEBL = 0 if there is not hard-wiredbattery bank.

Equation 2 will be calculated every minute, using theEGL,EBL andEL valuesfrom the beginning of the competition. However, only itsfinal value(i.e. at the end of the

competition) will provide Sub-Contest 4.2 scoring.

Sub-Contest 4.3: Load Consumption per Measurable Area.

Only the EL electric variable will be used in this sub-contest.

To accomplish the sub-contest requirements,EL value is calculated as the daily average ofthe electrical loads consumption during the competition. This average takes into account

a complete day period (i.e. 24h) for every day during the contest. For each house (i), the

load consumption per measurable area is calculated as:

EiLS=EiLAi

(3)

where Ai represents the measurable area of house i.


10

Remember that the energy stored in the batteries can only come from the house PV sources during the shadowsfree period.

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Finally, the scoring distribution will be normalized to the minimum consumption performed

by all Teams as:

Ei

LS=EiLSELSmin (4)

whereELSmin =min{ EiLS}; iEquation4 will becalculated only once, at the end of the competition.


Sub-Contest 5.1: Temperature.


Both temperature variables (Troom1 and Troom2) will be truncated to the scored time

periods provided inSDE 2012 Rules(Troom1 andTroom2). Moreover, the truncated valueswill be averaged in intervals of15 minutes( Troom1 andTroom2).Finally, the monitoring system will score Sub-Contest 5.1 according to the worst temperature

reading (S5.1):

S5.1= minS( Troom1),S( Troom2)

(5)

where S() is the temperature scoring based on Figure 6 points distribution according to

SDE 2012 Rules.

The competition scored period will be divided in 15 minutes intervals(N15). Total points

available (pT) will be divided in N15 intervals. Equation 5 will be calculated every 15

minutes, and pTN15

points will be assigned according to the sub-contest points distribution.

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Sub-Contest 5.2: Humidity.


Humidity values will be truncated to the predefined scored p eriod in SDE 2012 Rules

(Hroom1), and averaged every 15 minutes(Hroom1).The competition scored period will be divided in 15 minutes intervals (N15). Total

points available (pT) will be divided in N15 intervals.Hroom1 will becalculatedevery15minutes, and pT

N15points will be assigned according to the sub-contest points distribution.


Sub-Contest 5.3: Air quality.


Air quality values will be truncated to the predefined scored period in SDE 2012 Rules

(Qroom1), and averaged every 15 minutes( Qroom1).The competition scored period will be divided in 15 minutes intervals (N15). Total

points available (pT) will be divided in N15 intervals.Qroom1 will becalculatedevery15minutes, and pT



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Sub-Contest 5.4: Workstation Lighting.


For every scored period (tSp), defined inSDE 2012 Rules, the minimum workstation lighting

value will be calculated:

Lperiod= min{Lwork(t)} ; t tSp (6)

Total points available (pT) will be divided in Np intervals of tSp . Equation 6 will be

calculated every tSp and pT

Nppoints will be assigned according to the sub-contest points

distribution.


Sub-Contest 5.5: Acoustic p erformance.


The sub-contest scoring will be manually assigned to the sole measurement carried out in

this contest on Dhouseand the points distribution, according to SDE 2012 Rules, shown in

Figure10.

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Sub-Contest 6.1: Refrigerator.


This sub-contest will be continuously evaluated. Tfridgewill be averaged every15 minutes

( Tfridge).The competition scored period will be divided in 15 minutes intervals (N15). Total

points available (pT) will be divided in N15 intervals.Tfridgewill be calculated every15minutes, and pT



Sub-Contest 6.2: Freezer.


This sub-contest will be continuously evaluated.Tfreezerwill be averaged every 15 minutes

( Tfreezer).The competition scored period will be divided in 15 minutes intervals (N15). Total

points available (pT) will be divided in N15 intervals.Tfreezerwill becalculatedevery15minutes, and pT



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Sub-Contest 6.3: Clothes Washer.


For every scored period (tSp), defined in SDE 2012 Rules, the maximum washing machine

temperature value will be calculated:

Tperiod= max{TW M(t)} ; t tSp (7)




distribution.


Sub-Contest 6.4: Clothes Dryer.


The sub-contest scoring will be manually assigned for every task achievement. An observer

will insert Wi and Wo to the monitoring system, which will calculate the towels relative

weight as:

Wdryer =Wo

Wi100 (8)


calculated every tSp

and pTNp

points will be assigned according to the sub-contest points

distribution shown in Figure14.

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Sub-Contest 6.5: Dishwasher.


For every scored period (tSp), defined in SDE 2012 Rules, the maximum dishwasher tem-

perature value will be calculated:

Tperiod= max{TDW(t)} ; t tSp (9)




distribution.


Sub-Contest 6.6: Home Electronics. During the assembly period, the energy consumedby the home electronics line (EHE o) will be measured during a 30 minute period (To).

EHE will be calculated for every scored period (tSp) defined in SDE 2012 Rules.

Total points available (pT) will be divided in Np intervals oftSp . pT

Nppoints will be assigned

to every scored period if

EHE 0.9EHE otSp

To(10)

Sub-Contest 6.7: Oven.


For every scored period (tSp) defined inSDE 2012 Rules, the oven will be turned on duringa maximum period of 1 hour (Ton). Within this time, the oven must keep a temperature of

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220 C during at least 45 minutes to get all the available points. An observer will check the

oven power on and off. At the end of the scored period the system will calculate the points

obtained.Total points available (pT) will be divided in Np intervals oftSp . Points will becalculated

every scored period and pTNp

points will be assigned according to the sub-contest points

distribution.


Sub-Contest 6.8: Cooking.



will insert Wi and Wo to the monitoring system, which will calculate the vaporized water

weight as:

Wcook= WoWi (11)




distribution shown in Figure17.

Sub-Contest 6.9: Hot water draws:



will insert Thw to the monitoring system. Total points available (pT) will be divided in

Np

intervals of tSp

. Scoring will becalculated every tSp

and pTNp

points will be assigned

according to the sub-contest points distribution shown in Figure18.

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SOLAR DECAHTLONEUROPE Location and dimensions

7. Location and dimensions

In this section we provide information about the monitoring system dimensions and the needs for

space and location. Firstly we explain the monitoring panel constraints, the need for space and

location and its dimensions. After the monitoring panel description, the different sub-contests

needs are explained.

Monitoring panel. The monitoring system core will be placed in a 65 cm (height) x

45 cm (width) x 15 cm (depth)panel. This monitoring panel will hold the Twido PLC

and TJ MONITOR together with the AC electricity meters, power supplies and terminal

blocks needed for its correct working. Teams must provide the wall, to which the monitoring

panel will be attached, with two spikes of 0.5 mm. maximum at 3 cm length and 3 cm width

from the left and right top corners with the capacity of holding the weight of the monitoring

panel (i.e. 6 Kg).

Figure19shows a picture of the monitoring panel 11. The first line shows an electric circuit

breaker, the power supplies and the TJ MONITOR . In the second line the Twido PLC

and extension boards are located together with some terminal blocks which simplify the

structured wiring. Finally, at the bottom of the panel, the three AC electricity meters are

located. Remember, special photovoltaic topologies will be handled individually.

Figure 19: Monitoring system core over the 65 cm (height) x 45 cm (width) x 15 cm (depth) panel.

11Notice that small modifications can arise in the final panel design.

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Location and dimensions SOLAR DECAHTLONEUROPE

All the sensors defined in Section 4 will be wired to this monitoring panel (see Section 8 for

the monitoring wiring requirements).

For the seek of simplicity and robustness during the assembly period and competition, it ismandatory that all Teams provide a free space for the inclusion of the monitoring panel. The

location of the monitoring panel is preferred to be near the inverters (i.e. inverters room), so

it will simplify the connection to the electricity meters and avoid monitoring errors. Notice

that the panel location as well as the sensors location will be discussed between each team

and the SDE 2012 Organization and must be validated by the Organization. No team will

be monitored if the monitoring has not been validated.

In order to prepare the monitoring panel room, it is important to understand how the

different connections will be made between the panel and the exterior.

Figure 20: Schema of the connections to be made to the monitoring panel.

Monitoring power line: As aforementioned (see Section3), the monitoring system

will have its own independent power line. This line will be connected by means of

a 3x6mm2 section cable entering to the left-top corner of the monitoring panel (see

Figure20).

Monitoring Ethernet lines: As aforementioned (see Section3), two different Ether-

net lines will be wired from the left side of the monitoring panel (see Figure20).

Home electronics meter: The two wires coming from the home electronics meterwill connect to the left side of the monitoring panel (see Figure 20). Notice, that as

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already stated in SDE 2012 Rules, the home electronics meter will be located in the

house electricity panel where a 7 cm free space should be left for its inclusion in the

DIN rail close to the home electronics independent line. Energy readings: The cables for the PV, Batteries and Load system will connect to

the bottom side of the monitoring panel (see Figure 20).

Sensors: The rest of the sensors will connect to the right side of the monitoring panel

to the Twido PLC (see Figure20).

Contest 4: Electrical Energy Balance. The AC electricity meters will be located in

the monitoring panel. Therefore, no other special requirements are needed for standard

topologies. Special topologies and their requirements will be handled individually with

Teams.

(a) (b)

(c) (d)

Figure 21: (a,b) Temperature, (c) air quality and (d) light sensors location. Sensors on the figure

may not correspond to the finally selected sensors (see Section 4).

Sub-Contest 5.1: Temperature. Temperature sensors must be placed in the location

agreed between the Teams and the Organization over a tripod (see Figure 21a,b). The

tripod must be in the placement agreed during all the scored periods.

Sub-Contest 5.2: Humidity. Humidity sensor must be placed in the location agreed

between the Teams and the Organization over a tripod (see Figure21b). The tripod must

be in the placement agreed during all the scored periods.

Sub-Contest 5.3: Air quality. Air quality sensor must be placed in the location agreed

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Location and dimensions SOLAR DECAHTLONEUROPE

between the Teams and the Organization over a tripod (see Figure 21c). The tripod must

be in the placement agreed during all the scored periods.

Sub-Contest 5.4: Workstation Lighting. Light sensor must be placed in the location

agreed between the Teams and the Organization over a tripod (see Figure 21d). The tripod

must be in the placement agreed during all the scored periods.

Sub-Contest 5.5: Acoustic performance. No reserved locations are needed for this

sub-contest.

Sub-Contest 6.1: Refrigerator. Fridge thermocouple must be located inside the refrig-

erator during all the SDE 2012 competition (see Figure 22a).

Sub-Contest 6.2: Freezer. Freezer thermocouple must be located inside the freezer during

all the SDE 2012 competition (see Figure22b).

Sub-Contest 6.3: Clothes Washer. Clothes washer thermocouple must be located inside

the washing machine during all the SDE 2012 competition (see Figure 22c).

Sub-Contest 6.4: Clothes Dryer. No reserved locations are needed for this sub-contest.

Sub-Contest 6.5: Dishwasher. Dishwasher thermocouple must be located inside the

washing machine during all the SDE 2012 competition (see Figure22d).

Sub-Contest 6.6: Home Electronics. A minimum of a 7 cm DIN rail space is need to

be left in the Teams electrical box (see Figure22e).

Sub-Contest 6.7: Oven. Oven thermocouple must be located inside the washing machine

during all the SDE 2012 competition (see Figure22f).

Sub-Contest 6.8: Cooking. No reserved locations are needed for this sub-contest.

Sub-Contest 6.9: Hot water draws: No reserved locations are needed for this sub-contest.

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(a) (b)

(c) (d)

(e) (f)

Figure 22: (a) Fridge, (b) freezer, (c) washing machine, (d) dishwasher, (e) home electronics and

(f) oven sensors location. Sensors on the figure may not correspond to the finally selected sensors

(see Section4).

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Wiring SOLAR DECAHTLONEUROPE

8. Wiring

For a correct success of the monitorization during the competition, it is necessary that a correct

wiring is designed. An exhaustive revision during the assembly period and a coordination between

the Teams and the SDE 2012 Organization are required in order to schedule the monitoring

installations. In this section, we provide information about how the sensors wiring should be

carried out.

As a preamble, notice the importance of having all the wires protected to the maximum to

prevent possible failures during the public tours or typical house activities. Therefore, this section

aims at clarifying the mandatory wiring protections.

Power connection: All Teams must provide a 3x2.5 mm2 entrance for the monitoring

power line to the place where the monitoring panel is located. Contrary to the connection

between the house and the grid, the SDE 2012 Organization will provide the wires.

Network connection: All Teams must provide an entrance to the place where the moni-

toring panel is located to allow the connection of the two monitoring Ethernet cables to the

monitoring system. The SDE 2012 Organization will provide those wires.

Contest 4: Electrical Energy Balance. As already stated in Section 4 two or three

AC electricity meters will be used for this contest. In order to have a correct wiring that

connects the PV, Batteries and Loads lines to the meters, it is mandatory that all Teams

provide electrical terminal blocks in which the Teams will connect the different lines to be

monitored, and the Monitoring Team will connect the wires from the electrical terminal

blocks to the meters. These electrical terminal blocks must allow the connection of wires

with 6mm2

-16mm2

section.It is important to secure all lines with electrical protections, so the Monitoring Team is able

to manipulate the electricity meters safely. Terminal blocks and protections should not be

further than 50 cm from the monitoring panel.

Figure23 shows a diagram about the requirements for the meters connection in a typical

AC bus architecture. Special designs will be discussed individually with the Teams.

Sub-Contest 5.1: Temperature. Teams must provide a routing from the room, where the

monitoring panel is located, to the nearest place where the sensor will be placed. Teams, that

have a dedicated closet to keep the tripod which holds the temperature sensors during the

intervals in which they are not getting data, should provide the routing from the monitoring

panel room to the closet. In the case of the secondary room, the routing must have at leasta 20mm2 section. The routing to the primary room must have at least a 25 mm2 section.

Sub-Contest 5.2: Humidity. Teams must provide a routing from the room, where the

monitoring panel is located, to the nearest place where the sensor will be placed. Teams,

that have a dedicated closet to keep the tripod which holds the humidity sensor during the

intervals in which it is not getting data, should provide the routing from the monitoring

panel room to the closet. The routing to the primary room must have at least a 25 mm2

section.

Sub-Contest 5.3: Air quality. Teams must provide a routing from the room, where the

monitoring panel is located, to the nearest place where the sensor will be placed. Teams,

that have a dedicated closet to keep the tripod which holds the air quality sensor duringthe intervals in which it is not getting data, should provide the routing from the monitoring

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SOLAR DECAHTLONEUROPE Wiring

Figure 23: Wiring connection to the AC electricity meters.

panel room to the closet. The routing to the primary room must have at least a 25 mm2

section.

Sub-Contest 5.4: Workstation Lighting. Teams must provide a routing from the room,where the monitoring panel is located, to the nearest place where the sensor will be placed.

Teams, that have a dedicated closet to keep the light sensor during the intervals in which

it is not getting data, should provide the routing from the monitoring panel room to the

closet. The routing to the primary room must have at least a 20 mm2 section.

Sub-Contest 5.5: Acoustic performance. No special wiring is needed for this sub-

contest.

Sub-Contest 6.1: Refrigerator. Teams must provide a routing from the monitoring

panel room to the nearest place to the refrigerator. This routing must have at least a

20mm2 section.

Sub-Contest 6.2: Freezer. Teams must provide a routing from the monitoring panel

room to the nearest place to the freezer. This routing must have at least a 20 mm2 section.

Sub-Contest 6.3: Clothes Washer. Teams must provide a routing from the monitoring

panel room to the nearest place to the washing machine. This routing must have at least a

20mm2 section.

Sub-Contest 6.4: Clothes Dryer. No special wiring is needed for this sub-contest.

Sub-Contest 6.5: Dishwasher. Teams must provide a routing from the monitoring panel

room to the nearest place to the dishwasher. This routing must have at least a 20 mm2

section.

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Monitoring Drawings SOLAR DECAHTLONEUROPE

Sub-Contest 6.6: Home Electronics. Teams must provide a routing from the monitoring

panel room to the electric box where the home electronics line is located. This routing must

have at least a 20 mm2

section.

Sub-Contest 6.7: Oven. Teams must provide a routing from the monitoring panel room

to the nearest place to the oven. This routing must have at least a 20 mm2 section.

Sub-Contest 6.8: Cooking. No special wiring is needed for this sub-contest.

Sub-Contest 6.9: Hot water draws: No special wiring is needed for this sub-contest.

9. Monitoring Drawings

According to Rule 30.2, all Teams have to submit the following ID-SDE Instrumentation Drawings

to the SDE 2012 Organization. Please see Appendix B for Drawing examples.

ID-001 - General Monitoring: A plan in which the sensors location, wiring, routing,

temporal tripod location and connection to the grid are shown.

ID-002 - Monitoring panel room: A plan in which the monitoring panel is located within

the monitoring panel room. Measurements about the free space left within the room must

be specified.

ID-003 - Electricity meters topology: A plan in which the different lines to be monitored

(i.e. PV, Bat and Loads) are shown. This plan requires a unifilar electricity plan where the

electricity meters are shown.

ID-004 - Electricity meters connection: A plan in which the monitoring panel and the

electric terminal blocks are shown. The distance from the monitoring panel to the terminal

blocks must be specified.

ID-005 - House appliances: A plan which includes the appliance locations must be

provided to the Organization. Moreover, this plan must include, in the legend, the brand

and reference of every appliance. Furthermore, the plan must include the routing between

the monitoring panel and the electric box where the Home Electronics meter will be located

together with the plugs location at which the home electronics are connected.

10. Instrumentation Plan and Approval

As a document summary, hereafter we provide information about the Team requirements. These

requirements will be checked from now on with the Teams by means of the Monitoring Checklist

(see AppendixA). Teams which do not pass all the items in the Monitoring Checklistwill not be

able to be monitored and no points will be obtained in those contests. The actions to be taken

before the competition are the following:

1. Every Team must hand in the preliminary monitoring plan (see Section9).

2. Each Team and the Organization will negotiate the location of the monitoring panel, the

location of the sensors, the sensors wiring and all the routing needed for a correct wiring.

3. Every Team must hand in the Final monitoring plan.

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SOLAR DECAHTLONEUROPE Instrumentation Plan and Approval

4. The Organization must approve the Final monitoring plan.

5. Teams must ensure that the space and routing described in the Final Monitoring plan have

been left.

Once the assembly period of the competition starts, the following items must be accomplished:

1. The Organization will check the spaces destined for the wiring (routing, space, etc.).

2. Teams will make the necessary adjustments so that the instrumentation system can be safely

and robustly installed by the Organization.

3. The Organization will mark the sensors location.

4. The Organization will install the monitoring panel, power it and check everything is correctly

installed.

5. The Organization will wire the sensors to the monitoring panel.

6. The Organization will verify the sensors operation.

7. Teams are responsible for the monitoring system integrity.

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Monitoring CheckList SOLAR DECAHTLONEUROPE

A. Monitoring CheckList

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SOLAR DECAHTLONEUROPE Monitoring Plans Examples

B. Monitoring Plans Examples

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Monitoring Plans Examples SOLAR DECAHTLONEUROPE

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Monitoring Plans Examples SOLAR DECAHTLONEUROPE

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34


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Datasheets SOLAR DECAHTLONEUROPE

C. Datasheets

C.1. Twido PLCdatasheet

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SOLAR DECAHTLONEUROPE C.1 Twido PLCdatasheet

36


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C.1 Twido PLCdatasheet SOLAR DECAHTLONEUROPE

37


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SOLAR DECAHTLONEUROPE C.1 Twido PLCdatasheet

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C.1 Twido PLCdatasheet SOLAR DECAHTLONEUROPE

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SOLAR DECAHTLONEUROPE C.2 TJ MONITORdatasheet

C.2. TJ MONITORdatasheet

MOD SAM9G20

RBZ ROBOT DESIGN S.L.

http://www.rbzrobotdesign.com

[email protected]

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C.2 TJ MONITORdatasheet SOLAR DECAHTLONEUROPE

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[email protected]

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MOD SAM9G20



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42


44/58

C.2 TJ MONITORdatasheet SOLAR DECAHTLONEUROPE

MOD SAM9G20



[email protected]

Carrier GPRS RBZ

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43


45/58


MOD SAM9G20



[email protected]

SOFTWARE

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44


46/58

C.3 Domotax datasheet SOLAR DECAHTLONEUROPE

C.3. Domotax datasheet

5

Conexiones

Dimensiones

Caractersticas Tcnicas

Tensin de referencia Un

Intensidad de base

Ib (Imx)

Frecuencia de referencia

Consumo propio

Clase de precisin

Clase de proteccin

Tipo de proteccin

Montaje

Cuadro de Modelos

Modelo Precisin Discriminaciones Caractersticas

DOMOTAX Clase 1 Activa Sin discriminacin horaria Medida directa 10(60) A

DOMOTAX 2 TN Clase 1 Activa Con discriminacin horaria (dh) mas rel Medida directa 10(60) A

DOMOTAX Activa/Reactiva C lase 1 Acti va / C lase 2 React iva S in y con d is cr im inac in hor ar ia (dh) Med ida d ir ec ta 10(60) A

DOMOTAX Bidireccional Clase 1 Activa Importacin y Exportacin Medida directa 10(60) A

230 Vc.a.

10(60) A

50 Hz

Circuitos de tensin:

< 2 VA

Circuitos de intensidad:

< 1 VA

Clase 1 segn EN 62053-21

Clase II segn EN 60335

IP 51 segn EN 60529

Tringulo de fijacin (Ver dimeniones).

Caractersticas

El DOMOTAX es un contador multifuncin de energa elctri-ca monofsico, esttico para medida directa de energa acti-va (clase 1) o activa / reactiva; de conexin directa a doshilos.

Ideal para la discriminacin horaria ya que sustituye al con-

tador de doble tarifa y al interruptor horario. Puede efectuar discriminaciones horarias de hasta cuatroperiodos de tarifacin con sus correspondientes maxmetros.

Permite la posibilidad partiendo de un modelo bsico, deincorporar comunicacin mediante un puerto RS232,RS485, salida SO o emisor de impulsos (libre de potencial).

La comunicacin RS485 se incorpora para aquellas instala-ciones con lectura centralizada.

Se puede suministrar con rel de retardo por mximademanda bajo pedido.

El DOMOTAX es un contador idneo para instalacionesmonofsicas en viviendas que necesiten gestionar sus con-sumos, ya que puede incluir curva de carga de la instala-cin.

Todas estas opciones hacen del DOMOTAX uno de los con-tadores monofsicos de medida directa ms completos delmercado.

45


47/58

SOLAR DECAHTLONEUROPE C.4 STR100 datahseet

C.4. STR100 datahseet

SPECIFICATIONS

Ambient Conditions

Storage temperature. . . . . . . . . . . 20 C to +70 C

(4 F to +158 F)

Operation temperature . . . . . . . . . .0 C to +50 C(+32 F to +122 F)

Humidity . . . . . . . . . . . . . . . . . . . . . . . . . max. 90%

non-condensing relative humidity

Mechanical

Enclosure material . . . . . . . . . . . . . . . . . . .ABS/PC

Enclosure rat ing . . . . . . . . . . . . . . . . IP 20/NEMA 1

Dimensions. . . . . . . . . . . . . . . . . . . . . . . see Fig. 1

Weight . . . . . . . . . . . . . . . . . . . . . . . .85 g (0.19 lb.)

Agency Compliances

Emission

CE . . . . . . . . . . . . . . . . . . . . . . . . . . EN 61000-6-3

Immunity

CE . . . . . . . . . . . . . . . . . . . . . . . . . . EN 61000-6-1

Safety

CE . . . . . . . . . . . . . . . . . . . . . . . . . . . EN 61010-1

UL . . . . . . . . . . . . . . . . . . . . . C -UL, UL 916 Listed

Flammability

UL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . UL 94 V-0

Energy (STR106-3 only)

eu.bac, certificate no. 020711 . . . . . . . . EN 15500

Sensor Data

Type . . . . . . . . . . . . . . . . . . . . . . 1.8 kW thermistor

Accuracy . . . . . . . . . . . . . . at 1530 C (5986 F),

0.35 C (0.63 F)

STR100 - STR107

Field Devices Europe 01

Wall Modules

The STR is a series of wal l modu les optimized fo r

public facilities such as office buildings, hotels,

hospitals, schools and shopping malls. Their

pleasant appearance and well-designed inter-

face make them suitable for any contemporary

building. They are easy to operate and install.

The STR101 through STR107 are equipped

with a modular jack (RJ-10) that allows the wall

module to be connected to the portable TAC

Xenta OP (Operator Panel ). The STR101 through

STR107 can be used together with the TAC Xen-

ta 100, 200, 300 and 400 series of controllers.

The wall modules are equipped diff erently; the

STR100 is the basic model, while the STR106

and STR107 are fully equipped. The STR wall

modules replace the ZS 100 series and the

EGRL room sensor.

DIMENSIONS mm (in)

58(

2.2

8)

116(

4.6

)

24(

0.9

)

84 (3.3)

82 (3.2)

Fig 1

46


48/58

C.4 STR100 datahseet SOLAR DECAHTLONEUROPE

Schneider Electric Telephone Europe: Malm, Sweden +46 40 38 68 50 Telephone Asia Pacific: Singapore +65 6776 3166 www.schneider-electric.com/buildings

03-00101-04-en 2007 mf

2

009SchneiderElectric.

Allrightsreserved.

STR100 - STR10703

Field Devices Europe

2

009SchneiderElectric.

Allrightsreserved.

02Field Devices Europe

Part Numbers

STR100 . . . . . . . . . . . . . . . . . . . . . . . . 004600100

STR100-W (White) . . . . . . . . . . . . . . . . 004600110

STR101 . . . . . . . . . . . . . . . . . . . . . . . . 004600200

STR102 . . . . . . . . . . . . . . . . . . . . . . . . 004600300

STR103 . . . . . . . . . . . . . . . . . . . . . . . . 004600700

STR104 . . . . . . . . . . . . . . . . . . . . . . . . 004600400

STR106 . . . . . . . . . . . . . . . . . . . . . . . . 004600500

STR106-B . . . . . . . . . . . . . . . . . . . . . . 004600800

STR106-3. . . . . . . . . . . . . . . . . . . . . . . 004600900

STR107 . . . . . . . . . . . . . . . . . . . . . . . . 004600600

FUNCTIONS

Fig. 2 shows an STR107. The STR100STR106

may have less functionality.

Mode Indicator

A green LED is used on the STR101STR107

to indicate the mode in accordance with the

following:

green light.

flashing green light.

being off.

Bypass Button

A bypass button is provided on models STR103

STR107 to change from standby (economy)

or unoccupied mode to comfort mode. When

entering comfort mode, the symbol on the dis-

play shows a steady light. When the bypass time

expires, the symbol returns to its previous status

again, provided that the feedback mode is con-

nected. Otherwise the symbol returns to the Off

status after two hours.

Setpoint Offset Wheel

A setpoint offset wheel i s provided on models

STR103, STR104, STR106 and STR107 for

adjusting the temperature setpoint offset.

The adjustment range may be set to the

following limits (not applicable to STR106-3):

The adjustment i s done manually using the plas-

tic keys on the back of the core-panel. Increase/

decrease limits are separately adjustable.

Model Temp.

Sensor

Mode

Indicator

Setpoint

Offset

Wheel

Bypass

Button

Fan Speed

Control1

STR100 X

STR101 X X

STR102 X X X

STR103 X X X

STR104 X X X X

STR106

STR106-B

STR106-3

X

X

X2

X3

X4

STR107 X X X X X5

1. In the TAC Xenta 100 series, this is onlyapplicable for the TAC Xenta 101-VF and TAC

Xenta 121-FC.

2. STR106-3 with a fixed range: 3 C

(centigrades only).

3. STR106-B has no icon on t he Bypass button.

4. All three models use a 5-positions control

wheel: A-0-I-II-III.

5. STR107 uses a 3-positions control wheel:

Auto-Off-On.

Wiring

The STR100STR107 uses 210