On 12/8/06, David Nicol davidnicol@gmail.com wrote:
sensors it8712-isa-0290 Adapter: ISA adapter VCore 1: +1.26 V (min = +1.42 V, max = +1.57 V) ALARM VCore 2: +1.49 V (min = +2.40 V, max = +2.61 V) ALARM +3.3V: +6.62 V (min = +3.14 V, max = +3.46 V) ALARM +5V: +5.11 V (min = +4.76 V, max = +5.24 V) ALARM +12V: +11.65 V (min = +11.39 V, max = +12.61 V) ALARM -12V: -20.12 V (min = -12.63 V, max = -11.41 V) ALARM -5V: -8.58 V (min = -5.26 V, max = -4.77 V) ALARM Stdby: +5.08 V (min = +4.76 V, max = +5.24 V) ALARM VBat: +3.18 V fan1: 5818 RPM (min = 0 RPM, div = 8) ALARM fan2: 0 RPM (min = 3013 RPM, div = 8) ALARM fan3: 3835 RPM (min = 3013 RPM, div = 8) M/B Temp: +48°C (low = +15°C, high = +40°C) sensor = thermistor ALARM CPU Temp: +45°C (low = +15°C, high = +45°C) sensor = thermistor ALARM Temp3: +53°C (low = +15°C, high = +45°C) sensor = diode ALARM
are these voltage readings real? With the power supply providing power so far out of spec I'm surprised that the box works at all.
Sensor and voltage readings are suspect unless verified. That said,do also consider that thermistors are inherently tied to Vref . The "on board" Vregs also can compensate for incredible out of ranges HIGH but not so much LOW being largely "linear" as opposed to Switchers. Then also consider Vcore being clock and duty cycle subjective in REAL value as to it's impact. All this may tie into the rest of your situation.