Exceptional cookingperformance does notcome about by chance. Itrequires advaancedtechnology and innovativedesign. GE proudlyintroduces the TrueTempSystem, which deliversconsistently even oventemperature for exceptionalcooking results -- making itthe industry leader.355°THERMOSTAT CYCLINGTemperatures shown in degrees F.360° 365° 370° 375° 380° 385° 390° 395°VISION TM RANGE W/ERC III TRUETEMP TMTrueTempThe Most AccurateOven In America!*PREVIOUS MODELSSmartLogic Electronic Controlwith Platinum Oven SensorMonitors and maintains oventemperature. Senses sudden,significant heat loss and respondswith extra power.*Among leading brandsTHERMOSTATSETTINGGE TRUETEMP, THE MOST ACCURATE OVEN IN AMERICA!The guesswork is gone. The temperamental oven is a thing of thepast. GE's exclusive TrueTemp system manages and maintains theoven temperature you select. It's more accurate than any otherleading brand. The SmartLogic electronic control, with a platinumsensor, constantly monitors the oven's performance to ensure moreprecise temperature management. Even if you open the door when theoven is on, SmartLogic senses variations in temperature andresponds to regain the selected setting.* Among leading manufactures' brandsTEMPERATURE - DEGREES F.400395390385380375370365360355THERMOSTAT CYCLINGERC III TRUETEMP VS PREVIOUS GE MODELSBROILRELAYBAKERELAYL1 BAKEBROILNEUTRALERC III TrueTemp, with on boardSmartLogic, manages and maintainsthe oven temperature youselect. ERC controls withTrueTemp, SmartLogic can beidentified by the words TrueTemp,located just above the ERCdisplay, on the front of the controlpanel.PREVIOUS MODELSTrueTempOven CyclingBurner ONTIMEBurner OFF Burner ONBurner OFF Burner ONXL44 RANGES w/ERCIII TRUE TEMP– 16 –
ERC FAULT CODE MEMORY DISPLAYHave you ever run a <strong>service</strong> call and been told by the consumerthat their range displayed an "F" fault code and when you arrivethe fault is gone (cleared by the consumer) and the consumercan not remember what the code was?Well there is now a way to "recall" the last four fault codes fromthe ERC memory. Care must be taken in interpreting thesecodes because once you determine the cause of the fault code,there is no way to clear the code(s) from the ERC memory. Inother words, the history that you are looking at in the displaycould be a weeks worth of history, or 5 years - there is no way totell. With this in mind, the last fault code stored in memory is theone that you should focus on, because the others may haveoccured a long time prior to the last one.ERC FAULT CODE MEMORY TESTSEOTNDELAYBROIL LOCKED BAKE CLEANDOORTrueTempSETSTARTCOOKCLOCK CLEANSTOP TIMERHOW TO DISPLAY THE FAULT CODES IN MEMORYTo read the fault code memory, follow the steps below:1. Simultaneously press the COOKING TIME, DELAY STARTand number 9 pads. A history of the last four fault codeswill appear in the display. NOTE: If no keypad entry ismade within 5 minutes, the ERC test mode will "time out".2. To terminate the memory fault mode press the CLEAR /OFF key padHOW FAULT CODES ARE STORED IN MEMORY - EXAMPLEA If we displayed the fault code memory for a <strong>new</strong> range, onethat has never experienced a fault code, we would see four zero'sin the display, meaning that no fault codes are stored in memory.ASEOTNDELAY BAKE CLEANBROIL LOCKED DOORSETSTART CLOCK CLEANCOOK STOP TIMERNo Fault codes<strong>new</strong> rangeB The first time a fault code occurs, the ERC display will storethe fault code in it's memory. When you read the fault code,which is stored in memory, the code will display in the far righthand digit of the clock display.BSEOTNDELAY BAKE CLEANBROIL LOCKED DOORSETSTART CLOCK CLEANCOOK STOP TIMERscrolls leftFirst fault code -F1C If a second fault code occurs, it too is stored in the ERCmemory. The first fault code stored in memory scrolls to the left,and the <strong>new</strong> fault code now displays in the far right hand digit ofthe clock display.CSEOTNDELAY BAKE CLEANBROIL LOCKED DOORSETSTART CLOCK CLEANCOOK STOP TIMERscrolls leftSecond fault code -F3 (scrolls left)D If the same fault code repeats itself (sequencially), withoutbeing separated by a different fault code, then the repeated faultcode will "stack" in memory. In other words, the repeated faultcode will only display once, unless separated by a different faultcode. In this example, F3 repeats itself twice, the resulting faultcode memory display only shows one 3. The same would alsobe true if F3 repeated itself four times, the result showing in thefault code memory display would be one "3", NOT four "3"'s.DSEOTNDELAY BAKE CLEANBROIL LOCKED DOORSETSTART CLOCK CLEANCOOK STOP TIMERStacksThird fault code -F3 (stacks)E If a fourth fault code occurs, the ERC will scroll the previousfault codes stored in memory to the left, one digit, and store the<strong>new</strong> fault code in the far right hand digit of the clock display.F If a fifth fault code occurs, the ERC will continue to scroll theprevious fault codes to the left, and store the <strong>new</strong> fault code inthe far right hand digit of the clock display.G If a sixth fault code occurs, the ERC will once again scroll theprevious fault codes to the left. Notice in this example the firstfault code (F1), previously stored in memory is now lost. TheERC will continue to scroll the previous fault codes to the left andstore the <strong>new</strong> fault code in the far right hand digit of the clockdisplay.EFGSEOTNDELAY BAKE CLEANBROIL LOCKED DOORSEOTNDELAY BAKE CLEANBROIL LOCKED DOORSEOTNDELAYBROIL LOCKED BAKE CLEANDOORSETSETSETSTART CLOCK CLEANCOOK STOP TIMERscrolls leftSTART CLOCK CLEANCOOK STOP TIMERscrolls leftSTART CLOCK CLEANCOOK STOP TIMERscrolls leftFourth fault code -F1 (scrolls left)Fifth fault code -F4 (scrolls left)Sixth fault code -FF (scrolls left)– 17 –