Rainbow-electronics LM93 Manual do Utilizador descarregar pdf (Página 13)

12.0 Functional Description

(Continued)

provide a nominal

⁄

full scale reading, while the −12V

should be scaled to provide a nominal

⁄

scale reading. The

thevenin resistance at the pin should be kept between 1 kΩ

and7kΩ.

The −12V monitoring is particularly challenging. It is required

that an external offset voltage and external resistors be used

to bring the −12V rail into the positive input voltage region of

the A/D input. It is suggested that the supply rail for the LM93

device be used as the offset voltage. This voltage is usually

derived from the P/S 5V stand-by voltage rail via a

accurate linear regulator. In this fashion we can always

assume that the offset voltage is present when the −12V rail

is present as the system cannot be turned on without the

3.3V stand-by voltage being present.

Voltage vs Register Reading

Normal

Use

Nominal

Voltage

Reading

Nominal

Voltage

Maximum

Voltage

Reading at

Maximum

Voltage

Minimum

Voltage

Reading at

Minimum

Voltage

Absolute

Maxmum Range

AD_IN1 +12V1 0.927V C0h 1.236V FFh 0V 00h −0.3V to (V

+ 0.05V)

AD_IN2 +12V2 0.927V C0h 1.236V FFh 0V 00h −0.3V to (V

+ 0.05V)

AD_IN3 +12V3 0.927V C0h 1.236V FFh 0V 00h −0.3V to (V

+ 0.05V)

AD_IN4 FSB_Vtt 1.20V C0h 1.60V FFh 0V 00h −0.3V to +6.0V

AD_IN5 3GIO 1.5V C0h 2V FFh 0V 00h −0.3V to +6.0V

AD_IN6 ICH_Core 1.5V C0h 2V FFh 0V 00h −0.3V to +6.0V

AD_IN7 Vccp1 1.20V C0h 1.60V FFh 0V 00h −0.3V to +6.0V

AD_IN8 Vccp2 1.20V C0h 1.60V FFh 0V 00h −0.3V to +6.0V

AD_IN9 +3.3V 3.30V C0h 4.40V FFh 0V 00h −0.3V to +6.0V

AD_IN10 +5V 5.0V C0h 6.667V FAh 0V 00h −0.3V to +6.5V

AD_IN11 SCSI_Core 2.5V C0h 3.333V FFh 0V 00h −0.3V to +6.0V

AD_IN12 Mem_Core 1.969V C0h 2.625V FFh 0V 00h −0.3V to +6.0V

AD_IN13 Mem_Vtt 0.984V C0h 1.312V FFh 0V 00h −0.3V to +6.0V

AD_IN14 Gbit_Core 0.984V C0h 1.312V FFh 0V 00h −0.3V to +6.0V

AD_IN15 −12V 0.309V 40h 1.236V FFh 0V 00h −0.3V to (V

+ 0.05V)

AD_IN16 +3.3V S/B 3.3V C0h 3.6V D1h 3.0V AEh −0.3V to +6.0V

Application Note: The nominal voltages listed in this table are only typical values. Voltage rails with different nominal voltages can be monitored, but the register

reading at the nominal value is no longer C0h. For example, a Mem_Core rail at 2.5V nominal could be monitored with AD_IN12, or a Mem_Vtt rail at 1.2V could

be monitored with AD_IN13.

12.5 RECOMMENDED EXTERNAL SCALING RESISTORS FOR +12V POWER RAILS

The +12V inputs require external scaling resistors. The re-

sistors need to scale 12V down to 0.927V.

Required External Scaling

Resistors for +12V Power Input

20068208

To calculate the required ratio of R1 to R2 use this equation:

It is recommended that the equivalent thevenin resistance of

the divider be between 1k and 7k to minimize errors caused

by leakage currents at extreme temperatures. The best val-

ues for the resistors are: R1=13.7 kΩ and R2=1.15 kΩ. This

yields a ratio of 11.94498, which has a +0.27% deviation

from the theoretical. It is also recommended that the resis-

tors have

1% tolerance or better.

Each LSB in the voltage value registers has a weight of 12V

/ 192 = 62.5 mV. To calculate the actual voltage of the +12V

power input, use the following equation:

= (8-bit value register code) x (62.5 mV)

12.6 RECOMMENDED EXTERNAL SCALING CIRCUIT

FOR −12V POWER INPUT

The −12V input requires external resistors to level shift the

nominal input voltage of −12V to +0.309V.

LM93

www.national.com13

1 2 ... 8 9 10 11 12 13 14 15 16 17 18 ... 91 92

Comentários a estes Manuais

Sem comentários

Rainbow-electronics LM93 Manual do Utilizador Página 13

Comentários a estes Manuais

Manuais e produtos relacionados com Sensores Rainbow-electronics LM93