isl706xrheval1z Intersil Corporation, isl706xrheval1z Datasheet - Page 11

isl706xrheval1z

Manufacturer Part Number

isl706xrheval1z

Description

Rad-hard, 5.0v/3.3v µ-processor Supervisory Circuits

Manufacturer

Intersil Corporation

Datasheet

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is at its maximum specified value. This allows the positive supply

to fluctuate within its acceptable range without signaling a reset

when configured as shown in Figure 16.

In Figure 16, the ISL705ARH is monitoring +5V through V

-5V through PFI. In this example, the trip point (V

negative supply rail is set for -4.5V. Equation 2 can be used to

select the appropriate resistor values. R1 is selected arbitrarily as

100kΩ, V

the values into Equation 2 as shown in Equation 3 it can be seen

a resistor of 153.3kΩ is needed. The closest 1% resistor value is

154kΩ.

Figure 4 also has a general purpose NPN transistor in which the

base is connected to the PFO pin through a 100kΩ resistor. The

emitter is tied to ground and the collector is tied to MR signal.

This configuration allows the negative voltage sense circuit to

initiate a reset if it is not within its regulation window. A pull-up

on the MR ensures no false reset triggering when the negative

voltage is within its regulation window.

Assuring a Valid RST Output

When V

current and is essentially an open circuit. As a result, this pin can

drift to undetermined voltages if left undriven. By adding a pull-down

resistor to the RST pin as shown in Figure 17, any stray charge or

leakage currents will be drained to ground and keep RST low when

should be large enough not to load RST and small enough to pull

RST to ground. A 100kΩ resistor would suffice, assuming there is no

load on the RST pin during that time.

falls below 1.2V. The resistor value (R1) is not critical however, it

+5V

-5V

R1 VPFI Vtrip

-------------------------------------------- -

100k 1.25

----------------------------------------------------- -

ISL705ARH, ISL705BRH, ISL705CRH, ISL706ARH, ISL706BRH, ISL706CRH

VDD VPFI

(

falls below 1.2V, the RST output can no longer sink

(

5 1.25

= 5V, V

–

FIGURE 16. ±5V MONITORING

– (

PFI

4.5

)

= 1.25V, and V

)

PFI

)

ISL705ARH

153.3kΩ

PFO

RST

TRIP

100k

= (-4.5V). By plugging

TRIP

) for the

2N3904

100k

(EQ. 2)

(EQ. 3)

and

Assuring a Valid RST Output

On the ISL705BRH and ISL706BRH, when V

RST output can no longer source enough current to track V

result, this pin can drift to undetermined voltages if left undriven. By

adding a pull-up resistor to the RST pin as shown in Figure 18, RST

will track V

however, it should be large enough not to exceed the sink capability

of RST pin at 1.2V. A 300kΩ resistor would suffice, assuming there

is no load on the RST pin during that time.

Selecting Pull-Up Resistor Values

The ISL705CRH and ISL706CRH have open drain active low reset

outputs (RST_OD). A pull-up resistor is needed to ensure RST_OD

is high when V

must be chosen in order not to exceed the sink capability of the

RST_OD pin. The ISL705ARH has a sink capability of 3.2mA and

the ISL706CRH has a sink capability of 1.2mA. Equation 4 may

be used to select resistor R

exceed V

PULL

. It is also important that the pull-up voltage does not

FIGURE 17. RST VALID TO GROUND CIRCUIT

FIGURE 18. RST VALID TO GROUND CIRCUIT

FIGURE 19. RST_OD PULL-UP CONNECTION

below 1.2V. The resistor value (R1) is not critical

is in a valid state (Figure 19). The resistor value

ISL705BRH, ISL706BRH

ISL706CRH, ISL705CRH

ISL705ARH, ISL706ARH

PULL

RST_OD

RST

based on the pull-up voltage

RST

300kΩ

PULL

falls below 1.2V, the

100kΩ

PULL

December 1, 2011

FN7662.1

. As a

isl706xrheval1z Intersil Corporation, isl706xrheval1z Datasheet - Page 11

isl706xrheval1z

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