Recognize An Overtemperature Condition - Dell S4048T Configuration Manual

QSFP 52 Transceiver Code
QSFP 52 Encoding
QSFP 52 Length(SFM)
QSFP 52 Length(OM3)
QSFP 52 Length(OM2)
QSFP 52 Length(OM1)
QSFP 52 Length(Copper) 1m
QSFP 52 Vendor Rev
QSFP 52 Laser Wavelength
QSFP 52 CheckCodeBase
QSFP 52 Serial ID Extended Fields
QSFP 52 BR max
QSFP 52 BR min
QSFP 52 Vendor SN
QSFP 52 Datecode
QSFP 52 CheckCodeExt
QSFP 52 Diagnostic Information
===================================
QSFP 52 Rx Power measurement type
===================================
QSFP 52 Temp High Alarm threshold
QSFP 52 Voltage High Alarm threshold
QSFP 52 Bias High Alarm threshold
QSFP 52 RX Power High Alarm threshold
QSFP 52 Temp Low Alarm threshold
QSFP 52 Voltage Low Alarm threshold
QSFP 52 Bias Low Alarm threshold
QSFP 52 RX Power Low Alarm threshold
===================================
QSFP 52 Temp High Warning threshold
QSFP 52 Voltage High Warning threshold
QSFP 52 Bias High Warning threshold
QSFP 52 RX Power High Warning threshold
QSFP 52 Temp Low Warning threshold
QSFP 52 Voltage Low Warning threshold
QSFP 52 Bias Low Warning threshold
QSFP 52 RX Power Low Warning threshold
===================================
QSFP 52 Temperature
QSFP 52 Voltage
QSFP 52 TX1 Bias Current
QSFP 52 TX2 Bias Current
QSFP 52 TX3 Bias Current
QSFP 52 TX4 Bias Current
QSFP 52 RX1 Power
QSFP 52 RX2 Power
QSFP 52 RX3 Power
QSFP 52 RX4 Power

Recognize an Overtemperature Condition

An overtemperature condition occurs, for one of two reasons: the card genuinely is too hot or a sensor has
malfunctioned.
Inspect cards adjacent to the one reporting the condition to discover the cause.
• If directly adjacent cards are not normal temperature, suspect a genuine overheating condition.
• If directly adjacent cards are normal temperature, suspect a faulty sensor.
= 0x04 0x00 0x00 0x00 0x00 0x00 0x00 0x00
= 0x05
Km = 0x00
2m = 0x32
1m = 0x00
1m = 0x00
= 0x00
= 01
= 850.00 nm
= 0x26
= 0
= 0
= QC050955
= 120205
= 0x2b
= Average
= 75.000C
= 3.630V
= 10.000mA
= 2.188mW
= -5.000C
= 2.970V
= 0.500mA
= 0.045mW
= 70.000C
= 3.465V
= 9.500mA
= 1.738mW
= 0.000C
= 3.135V
= 1.000mA
= 0.112mW
= 30.602C
= 3.311V
= 0.000mA
= 0.000mA
= 0.000mA
= 0.000mA
= 0.000mW
= 0.000mW
= 0.000mW
= 0.000mW
Debugging and Diagnostics 1244