MAX106 Datasheet, PDF(24/32 Page) Maxim Integrated Products – ±5V, 600Msps, 8-Bit ADC with On-Chip 2.2GHz Bandwidth Track/Hold Amplifier

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MAX106 Datasheet, PDF (24/32 Pages) Maxim Integrated Products – ±5V, 600Msps, 8-Bit ADC with On-Chip 2.2GHz Bandwidth Track/Hold Amplifier

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Â±5V, 600Msps, 8-Bit ADC with On-Chip

2.2GHz Bandwidth Track/Hold Amplifier

determining the die temperature is to measure each

current with an ammeter (which shuts off the internal

catch diodes) referenced to GNDI. The die temperature

in Â°C is then calculated by the expression:

TDIE

300ï£®ï£°ï£¯ICIPOTNASTT

ï£¹

ï£»ï£º

273

Another method of determining the die temperature

uses the operational amplifier circuit shown in Figure

20. The circuit produces a voltage that is proportional

to the die temperature. A possible application for this

signal is speed control for a cooling fan to maintain

constant MAX106 die temperature. The circuit operates

by converting the ICONST and IPTAT currents to volt-

ages VCONST and VPTAT, with appropriate scaling to

account for their equal values at +27Â°C. This voltage

difference is then amplified by two amplifiers in an

instrumentation-amplifier configuration with adjustable

gain. The nominal value of the circuit gain is 4.5092V/V.

The gain of the instrumentation amplifier is given by the

expression:

VTEMP

VCONST â VPTAT

= 1+

R1 +

2 R1

To calibrate the circuit, first connect pins 2-3 on JU1 to

zero the input of the PTAT path. With the MAX106 pow-

ered up, adjust potentiometer R3 until the voltage at the

VTEMP output is -2.728V. Connecting pins 1-2 on JU1

restores normal operation to the circuit after the calibra-

tion is complete. The voltage at the VTEMP node will

then be proportional to the actual MAX106 die tempera-

ture according to the equation:

â TDIE (Â°C) = 100 VTEMP

The overall accuracy of the die temperature measure-

ment using the operational-amplifier scaling circuitry is

limited mainly by the accuracy and matching of the

resistors in the circuit.

Thermal Management

Depending on the application environment for the

ESBGA-packaged MAX106, the customer may have to

apply an external heatsink to the package after board

assembly. Existing open-tooled heatsinks are available

from standard heatsink suppliers (listed in Heatsink

Manufacturers). The heatsinks are available with preap-

plied adhesive for easy package mounting.

IPTAT

6.65k

ICONST

6.65k

12.1k

1/4 MAX479

12.1k

7.5k

JU1

3 VPTAT

3.32k

5k 10-TURN

15k

1/4 MAX479

7.5k

1/4 MAX479

6.05k

VCONST

1/4 MAX479

VTEMP

Figure 20. Die Temperature-Acquisition Circuit with the MAX479

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