Setthe

‘I?xnperatweControls

Yourrefrigeratorhastwocontrols at thetopfrontof thefreshfood compartment.Thesecontrolslet youregulatethetemperaturein the freshfoodandfreezer compartments.

Howto Tk?StIlkmpemtums

Usethemilktestforthefreshfood

compartment,Placea containerof milkonthetopshelfinthefrmh foodcompartment,Checkit a day later.If themilkis toowarmor too cold,adjustthetemperatu~controls.

Usetheicecreamtestforthe

—.-—.—

—_— —=

—.

—.

—–

Energy$fiwerSwitch w.

-

-

—.

—-

—.

—-

-C

Thefreshfoodcontrolhassettings from1 to 9 plusOl?F.

‘T’hefreezercontrolhas settings from1 to 9.

1 is the warmest;9 is thecoldest.

1NITIALL%set both controlsat 5.

eYourrefrigeratormayoperatefor severalhourswhenyoufirststart it. Thisis normal,

Forcolderor warmertemperatures, adjustthedesiredcompartment controlonenumberat a time.

IMPORTANT

When initially setting the controls or whenadjustingthem, allow24 hoursfor the temperaturesto stabilize,or evenout.

Note:Turningthefresh food controlto the Ol?l?positionstops coolinginBOTHcmnpartments— freshfoodANDfreezer–but doesnot shut off powerto the refrigeH3toro

freezercompartmentPlacea. containerof icecreamin thecenter of thefreezercompartment.Check it aftera day.If it’stoohardor too soft,adjustthetemperaturecontrols.

Alwaysallow24 hoursfor therefrigeratorto reachthe temperatureyouset.

If you turn your household thermostat I!X1OVV60”F.at night

...youmaywantto turn thefleezer controlonestepcolder,as from “Y’ to “6VCoolertemperaturesin the housemaycausethecompressorto operatelessfkquently,thusallowing the freezercompartmentto warm somewhat.Toprotectyourfrozen foodsupply,leaveyourfieezer settingat thiscoldersettingfor the entirewinteror for whateverperiod of timeyouare turningdownyour thermostat.Thisis especially importantwhenthethermostatis turneddownfor an extendedperiod.

Thischangeshouldhaveno effect on yourfresh foodcompartment. However,if freezingoccurs,turn the fresh foodcontrolone step warmer,as from “Y’ to “4V

Whenyoustopturningthe thermostatdown,turn temperature controlsbacktotheirregularsettings.

Toreducethe amountof electricityrequiredtooperate yourrefrigerator,pushswitch to theleftposition.Thisturnsoff heatersin yourrefrigeratorthat preventmoisturefromformingon the outside.

Withtheheatersturnedoff, there is a chancethatmoisturemayform on theoutsideofyourrefrigerator, especiallywhenthe weatheris humid.Thehumidityis mostlikely to be highin the summer,in the earlymorninghours,and in homes whichare not air conditioned.

Overan extendedperiodof time, moisturethat formson the outside maycausedeteriorationofthepaint finish.It willbe importantto protect thefinishbyusingappliancepolish waxas describedon page10.

VV’henthe Energy SaverSW&h is pushedto therightp+osition9

electricityflowsthroughthelow wattageheaterswhichwarmthe outsideofthecabinetand,under mostconditions,preventtheforming of moistureor waterdroplets.

Yourrefrigeratoris designedand equippedto defrostitself automatically.

&mK—

~.

WM

Ea5B%lA

—.

-

TEEiEr

-

-

~u rsmiiaa

K:

w-

EmiwF-- ~-–

mma?–

P- —.

m=..

w.

&14a3..

r.%–w–

&%ea __

-

-.–

E:

Em%w-

R%s%

.—.

W$miFfx

R4m3 ---

E=sws??:-

-<– ..

Ma#..

..—

--

.

5

Page 5
Image 5
GE TBXS19, TBXS21 manual ‘I?xnperatweControls, Usethemilktestforthefreshfood, Usetheicecreamtestforthe

TBXS19, TBXS21 specifications

The GE TBXS21 and TBXS19 are advanced industrial telecommunication products developed by General Electric, designed to meet the rigorous demands of various operational environments. These models stand out due to their robust features, innovative technologies, and reliability, making them essential tools in automation, control systems, and communication networks.

One notable feature of the TBXS21 and TBXS19 is their ability to support multiple communication protocols. This versatility allows them to integrate seamlessly into existing systems, ensuring compatibility and interoperability across different devices and platforms. They can handle both wired and wireless communication, providing flexibility in deployment and operational use.

The TBXS21 model is specifically optimized for high-performance applications. It boasts enhanced processing capabilities, allowing for rapid data handling and transmission. This capability is crucial in environments where timely communication is vital, such as in manufacturing processes or power generation facilities. The TBXS21 also includes advanced security features, protecting against unauthorized access and ensuring data integrity.

Meanwhile, the TBXS19 is particularly noteworthy for its compact design and energy-efficient operation. This makes it an ideal choice for space-constrained applications or when energy consumption is a critical factor. Despite its smaller form factor, the TBXS19 does not compromise on performance, providing reliable connectivity and robust functionality.

Both models incorporate modern technologies like Ethernet and wireless communication, facilitating real-time monitoring and control of industrial processes. The user-friendly interface associated with the GE TBXS series simplifies configuration and management, allowing operators to quickly adapt to changing conditions or requirements.

Additionally, these products are built to withstand harsh environmental conditions, featuring rugged housing that protects against dust, moisture, and extreme temperatures. This durability is a significant advantage for industries such as oil and gas, transportation, and utilities, where equipment is often exposed to challenging conditions.

In conclusion, the GE TBXS21 and TBXS19 exemplify innovation in industrial communication technologies. Their advanced features, such as protocol support, robust security, energy efficiency, and physical durability, make them powerful tools for enhancing operational efficiency and ensuring reliable communication in diverse industrial settings. With General Electric's commitment to quality, these models represent a strategic investment for companies looking to future-proof their operations in an increasingly interconnected world.