SI3232-G-FQ Silicon Laboratories Inc, SI3232-G-FQ Datasheet - Page 28

SI3232-G-FQ

Manufacturer Part Number

SI3232-G-FQ

Description

IC SLIC PROG DUAL-CH 64TQFP

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI3232-FQ.pdf (128 pages)

Specifications of SI3232-G-FQ

Function

Subscriber Line Interface Concept (SLIC)

Interface

ISDN

Number Of Circuits

Voltage - Supply

3.13 V ~ 3.47 V

Current - Supply

28mA

Power (watts)

280mW

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Si3232

To provide optimal reliability, the device automatically

transitions into the open state until the user changes the

state manually, independent of whether or not the power

alarm interrupt has been masked. The PQ1E to PQ6E

bits of the IRQEN3 register are used to enable the

interrupts for each transistor power alarm, and the

PQ1S to PQ6S bits of the IRQVEC3 register are set

when a power alarm is triggered in the respective

transistor. When using the Si3200, the PQ1E bit is used

to enable the power alarm interrupt, and the PQ1S bit is

set when a Si3200 power alarm is triggered.

4.4.8. Power Dissipation Considerations

The Si3232 relies on the Si3200 to power the line from

the battery supply. The PCB layout and enclosure

conditions should be designed to allow sufficient

thermal

programmable power alarm threshold ensures product

Si3200 Power Output Monitor

Si3200 Power Alarm Interrupt Pending

Si3200 Power Alarm Interrupt Enable

Q1/Q2 Power Alarm Threshold (discrete)

Q1/Q2 Power Alarm Threshold (Si3200)

Q3/Q4 Power Alarm Threshold

Q5/Q6 Power Alarm Threshold

Q1/Q2 Thermal LPF Pole

Q3/Q4 Thermal LPF Pole

Q5/Q6 Thermal LPF Pole

Q1–Q6 Power Alarm Interrupt Pending

Q71–Q6 Power Alarm Interrupt Enable

Table 16. Register and RAM Locations used for Power Monitoring and Power Fault Detection

The total power threshold is exceeded (when using

the power calculator method along with the Si3200).

dissipation

Parameter

out

the

Si3200,

Preliminary Rev. 0.96

IRQVEC3

Location

IRQEN3

PLPF12

PLPF34

PLPF56

and

PTH12

PTH34

PTH56

PSUM

safety under all operating conditions. See “4.4.3. Power

Monitoring and Power Fault Detection” for more details

on power alarm considerations. The Si3200’s thermally-

enhanced SOIC-16 package offers an exposed pad that

improves thermal dissipation out of the package when

soldered to a topside PCB pad connected to inner

power planes. Using appropriate layout practices, the

Si3200 can provide thermal performance of 55 °C/W.

The exposed path should be connected to a low-

impedance ground plane via a topside PCB pad directly

under the part. See package outlines for PCB pad

dimensions. In addition, an opposite-side PCB pad with

multiple vias connecting it to the topside pad directly

under the exposed pad further improves the overall

thermal performance of the system. Refer to “AN55:

Dual ProSLIC™ User Guide” or the Si3232 evaluation

board data sheet for layout guidelines for optimal

thermal dissipation.

PLPF12[15:3]

PLPF34[15:3]

PLPF56[15:3]

PTH34[15:0]

PTH12[15:0]

PTH56[15:0]

PSUM[15:0]

PQ1S

PQ1E

Bits

Measurement

0 to 16.319 W

0 to 34.72 W

See “4.4.6. Power Filter and

0 to 1.03 W

Range

TBD

N/A

Alarms”

Resolution

1059.6 µW

31.4 µW

498 µW

N/A

SI3232-G-FQ Silicon Laboratories Inc, SI3232-G-FQ Datasheet - Page 28

SI3232-G-FQ

Specifications of SI3232-G-FQ

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