hc5549 Intersil Corporation, hc5549 Datasheet - Page 6

hc5549

Manufacturer Part Number

hc5549

Description

Low Power Slic With Battery Switch

Manufacturer

Intersil Corporation

Datasheet

1.HC5549.pdf (13 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

hc5549CM

Manufacturer:

HARRIS

Quantity:

Current page: 6 of 13
Download datasheet (297Kb)

4-WIRE TO 2-WIRE GAIN

The 4-wire to 2-wire gain is defined as the receive gain. It is

a function of the terminating impedance, synthesized

impedance and protection resistors. Equation 6 calculates

the receive gain, G

When the device source impedance and protection resistors

equals the terminating impedance, the receive gain equals

unity.

2-WIRE TO 4-WIRE GAIN

The 2-wire to 4-wire gain (G

the VTX output. The transmit gain is calculated in Equation 7.

When the protection resistors are set to zero, the transmit

gain is -6dB.

TRANSHYBRID GAIN

The transhybrid gain is defined as the 4-wire to 4-wire gain

When the protection resistors are set to zero, the transhybrid

gain is -6dB.

COMPLEX IMPEDANCE SYNTHESIS

Substituting the impedance programming resistor, R

complex programming network provides complex

impedance synthesis.

The reference designators in the programming network

match the evaluation board. The component R

different design equation than the R

impedance synthesis. The design equations for each

component are provided below.

FIGURE 1. COMPLEX PROGRAMMING NETWORK

400

–













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

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

⁄







400

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

(

+ 2R

NETWORK

–

2-WIRE

2 R

(

+ Z

)







)













) is the gain from tip and ring to

used for resistive

PROGRAMMING

NETWORK

has a

(EQ. 10)

, with a

(EQ. 11)

(EQ. 7)

(EQ. 8)

(EQ. 6)

(EQ. 9)

HC5549

Low Power Standby

Overview

The low power standby mode (LPS, 000) should be used

during idle line conditions. The device is designed to operate

from the high battery during this mode. Most of the internal

circuitry is powered down, resulting in low power dissipation.

If the 2-wire (tip/ring) DC voltage requirements are not

critical during idle line conditions, the device may be

operated from the low battery. Operation from the low battery

will decrease the standby power dissipation.

2-WIRE INTERFACE

During LPS, the 2-wire interface is maintained with internal

switches and voltage references. The Tip and Ring

amplifiers are turned off to conserve power. The device will

provide MTU compliance, loop current and loop supervision.

Figure 2 represents the internal circuitry providing the 2-wire

interface during low power standby.

MTU Compliance

Maintenance Termination Unit or MTU compliance places

DC voltage requirements on the 2-wire terminals during idle

line conditions. The minimum idle voltage is 42.75V. The

high side of the MTU range is 56V. The voltage is expressed

as the difference between Tip and Ring.

The Tip voltage is held near ground through a 600Ω resistor

and switch. The Ring voltage is limited to a maximum of

-49V (by MTU REF) when operating from either the high or

low battery. A switch and 600Ω resistor connect the MTU

reference to the Ring terminal. When the high battery

Receive

Ringing

Transmit

2-Wire

Loop Detect

INTERFACE

FIGURE 2. LPS 2-WIRE INTERFACE CIRCUIT DIAGRAM

TABLE 1. DEVICE INTERFACES DURING LPS

RING

TIP

MTU REF

GND

OFF

600Ω

AC transmission, impedance

matching

disabled during this mode.

Amplifiers disabled.

Switch hook or ground key.

TIP AMP

RING AMP

NOTES

and

ringing

FN4539.3

are

hc5549 Intersil Corporation, hc5549 Datasheet - Page 6

hc5549

Available stocks

Related parts for hc5549