Pcerca de los controlesde/deshumedificador.

CEArplianoe .oom

Lutesindicadorasde

Lucesindicadorasde

Luzindicadorade

Luzindicadorade

Lahz detanqueIlenoin&caque

retardoenapagadode

velocidaddeventilador

limpiezadefiltro

funcionamientode

eltanquedebevaciarseo queno

4 horaso 2 horas

alta,mediay baja

 

operaci6ncontinua

seencuentraen launidad

Humidity %

4hour

2hour

e

Continuous

Bucket Full

Luz

indicadorade

Cleon the Filter

Power On

 

 

encendido

Contro/es

Boton de Encendido/Apagado(Power)

Presioneparaencendero apagarel deshumedificador.

Temporizador del filtro (Filter Timer)

Despu_sde 250 horas de operaci6n,se

 

encender6 laluz indicadora de CleantheFilter

,m=

(Limpiezade filtro)para recordarle que debe

g

limpiar elfiltro. Quiteel filtro y Ifmpielo.

 

Presionepara apagar la luzde Cleanthe Filter

 

(Limpiezade filtro)light. Vet la secci6n Cuidadoy

 

limpbza.

 

4_ Botonesparael Controlde humedad

 

(HumiditySet Control)

 

Lahumedadsepuedecontrolara nivelesdeentre

 

35%HR(humedadrelativa)-80%HR(humedad

 

relativa)en incrementosdelS%o con COpara

 

un funcionamiento continuo. Paraconfigurarla

 

unidadenoperaci6ncontinua,presionelaflecha

 

haciaabajohastaqueseobserveCOen lapantalla.

 

NOTE: si seseleccionaCO(continuous),

 

el deshumedificadorfuncionardenforma

 

continuaen la configuraci6nmdxima de

 

deshumedificaci6nhastaquese Ileneeltanque.

 

Sideseaairem6sseco,presioneelbot6n v

dl_

y seleccioneunvalorporcentualm6sbajo(%).

 

Sideseaairem6sh0medo,presioneel bot6n A

 

y seleccioneunvalorporcentualm6salto (%).

 

Cuandouseporprimeravezeldeshumedificador,

 

coloqueelcontroldeldeshumedificadora/45%

 

6 50%.PermitaquetranscurranporIomenos

 

Otrasfunciones

 

2/4horasparaqueeldeshumedificadoralcance elniveldehumedad.Siel aireaOnest6rods

hOmedode Iodeseado,ajusteel niveldehumedad a unnivelmenoroseleccioneelbot6nde

funcionamientocontinuo(continuous)paraobtener una m6ximadeshumidificaci6n.

Pantalla

iVluestrael%delnivelde humedadprogramado durantelaconfiguraci6n,luegomuestrael %del nivelde humedadrealde lahabitaci6n(conuna precisi6nde+/- 5%).

Boton de velocidaddel ventilador

(FanSpeed)

Controlalavelocidaddecirculaci6ndelaire.

Presioneparaseleccionarlavelocidaddelventilador enalta (High),medio(Medium)o

bajo(Low).

Coloqueelcontroldelventiladora alta (High) velocidadparaIograrremoverlamayorcantidad dehumedad.Cuandola humedadhayasido reduciday ustedprefieraunaoperaci6nm@s tranquila,coloqueelcontroldelventilador

amedio(Medium)obajo (Low)velocidad.

Retarde en apagade (Delay Off)

Hientras el deshumedificador se encuentra

en funcionamiento, presione este bot6n para

que se apague autom6ticamente a las 2 horas o alas 4 horas.

/ndicadorde/tanquedeagua(BUCKETFULU

Esteindicadorseiluminacuandoeltanqueest@Ilenoy deberavaciarse,ocuandoelrecipientese remuevao noest@colocadoenlaposici6ncorrecta.

Alarma (Alarm)

Sieltanque se encuentra Ilenoo no est6 ensu lugar pot m6sde tres minutos,sonar6 una alarma durante 10 segundospara recordarlede vaciary volvera colocareltanque.

Apagadoautomatico(AUTOSHUTOFF)

Eltnterruptordecontrolde niveldeaguaapaga eldeshumedificadorcuandoeltanqueest@Ileno,o cuandoeltanque noest@presenteo noest@colocado

enunaposici6napropiada.NOTA:Elventiladorseguir6 funcionandoduranteaproximadamenteSminutos despu@sdequitareltanque

Descongeladoautomatico(AUTODEFROST)

Cuandoseacumuleescarchaen losserpentines evaporadores,elcompresorseapagar6,y elventilador continuar6funcionandohastaquelaescarcha desaparezca.

Perdidadeenergia(POWEROUTAGE)

Encasode lap@rdidade laenergfao interrupci6n,

launidadreiniciar6autom6ticamente,enlas

29

configuracionesusadaspor 01timavez,unavez laenergiasearestablecida.

Page 29
Image 29
GE ADERSO, ADEHSO Pcerca de los controlesde/deshumedificador CEArplianoe .oom, Botonesparael Controlde humedad, FanSpeed

ADERSO, ADEHSO specifications

GE ADEHSO (Advanced Electrical High-Density Switching Optimization) and ADERSO (Advanced Distributed Energy Resource Switching Optimization) are cutting-edge technologies developed by General Electric to address the evolving challenges in energy management and distribution. These systems are specifically designed to enhance the efficiency, reliability, and performance of electrical grids, particularly in a landscape where renewable energy and distributed generation sources are becoming more prevalent.

One of the main features of GE ADEHSO is its ability to optimize the switching operations in high-density electrical networks. It utilizes advanced algorithms and machine learning techniques to analyze real-time load conditions, allowing for dynamic reconfiguration of the network. This capability not only enhances the resilience of the grid but also minimizes downtime and enhances service reliability, thereby reducing operational costs for utilities.

ADERSO complements ADEHSO by focusing on distributed energy resources (DERs). With the increasing integration of solar panels, wind turbines, and battery storage systems, the need for sophisticated management of these resources has never been more critical. ADERSO provides a comprehensive framework for coordinating and optimizing DERs to ensure that they are utilized effectively while maintaining grid stability. It facilitates peer-to-peer energy trading and enhances demand response initiatives, contributing to a greener energy landscape.

Both ADEHSO and ADERSO utilize the Internet of Things (IoT) technologies to create smart grid systems. By leveraging IoT sensors and devices, these systems can gather and process data from various sources, providing utilities with unprecedented insights into grid operations. This data-driven approach allows for proactive maintenance and quicker response to potential outages or system failures.

In terms of characteristics, GE ADEHSO and ADERSO are designed to be scalable and adaptable. They can be integrated into existing grid infrastructures without significant overhauls, making them suitable for a wide range of applications—from urban centers to remote areas. Furthermore, their user-friendly interfaces allow operators to easily interact with the systems, facilitating intuitive management of complex energy networks.

In summary, GE ADEHSO and ADERSO represent a significant advancement in energy distribution and management technologies. By enhancing switching operations and optimizing the integration of distributed energy resources, these systems not only improve grid reliability but also play a crucial role in advancing the global transition towards sustainable energy sources.