hello TI analog enginner
do you kown ads1241 which is thermal impedance parameter?thank you.
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Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu
Joseph Wu said:Davy,
For the ADS1241, the thermal impedance was not specifically modeled.
However, for the same 28 pin SSOP, the thermal impedances can be determined using a generic model. Based on high-k thermal conductivity JEDEC guidelines for PCB design, the thermal impedances are:
Theta ja = 50.4 (and no air flow)
Theta jc = 16
Joseph Wu