Ericsson PBL38665-2QNS, PBL38665-2QNT, PBL38665-2SHT Datasheet

Description

The PBL 386 65/2 Subscriber Line Interface Circuit (SLIC) is a 90 V bipolar integrated
circuit for use in DLC, Central Office and other telecommunications equipment. The
PBL 386 65/2 has been optimized for low total line interface cost and a high degree
of flexibility in different applications.

The PBL 386 65/2 emulates a transformer equivalent dc-feed, programmable
between 2x25 Ω and 2x900 Ω, with short loop current limiting adjustable to max
65 mA.

A second lower battery voltage may be connected to the device to reduce short
loop power dissipation. The SLIC automatically switches between the two battery
supply voltages without need for external components or external control.
The SLIC incorporates loop current, ground key and ring trip detection functions. The
PBL 386 65/2 is compatible with loop start and ground start signalling.

Two- to four-wire and four- to two-wire voice frequency (vf) signal conversion is
accomplished by the SLIC in conjunction with either a conventional CODEC/filter or
with a programmable CODEC/filter, e.g. SLAC, SiCoFi, Combo II. The programmable
line terminating impedance could be complex or real to fit every market.

Longitudinal line voltages are suppressed by a feedback loop in the SLIC and the
longitudinal balance specifications meet the DLC requirements.

The PBL 386 65/2 package is 28-pin PLCC and 28-pin SSOP.

Figure 1. Block diagram.

May 2000

PBL 386 65/2

Subscriber Line

Interface Circuit

Key Features

• Selectable overhead voltage principle
– All adaptive: The overhead voltage
follows 0.6

Peak

V < signals < 6.2V

Peak

.
– Semi adaptive: The overhead voltage
follows 3.1V

Peak

< signals < 6.2V

Peak

.

• Metering 2.2 V

rms

• High and low battery with automatic
switching

• Battery supply as low as -10 V

• Only +5 V in addition to GND
and battery (VEE optional)

• 39 mW on-hook power dissipation in
active state

• Long loop battery feed tracks V

Bat

for

maximum line voltage

• 44V open loop voltage @ -48V
battery feed

• Constant loop voltage for line
leakage <5 mA

• On-hook transmission

• Full longitudinal current capability
during on-hook

• Programmable loop & ring-trip detector
threshold

• Ground key detector

• Analog temperature guard

• Tip open state with ring ground detector

• Silent polarity reversal

• Line voltage measurement

•-40° C to +85° C ambient temperature
range

28-pin PLCC and 28-pin SSOP.

PBL

386 65/2

VF Signal

Transmission

Off-hook
Detector

Line Feed
Controller

and

Longitudinal

Signal

Suppression

Ring Trip

Two-wire
Interface

Input

Decoder and

Control

C1

C2

DET

REF

LP

VTX

RSN

DT

DR

TIPX

HP

RINGX

VCC

VBAT2

VBAT

AGND

C3

BGND

Comparator

Ground Key

Detector

Ring Relay

Driver

RRLY

PLD

PLC

PSGTS

AOV

VEE
(Optional)

Preliminary

1

PBL 386 65/2

PBL 386 65/2

2

Preliminary

Maximum Ratings

Parameter Symbol Min Max Unit

Temperature, Humidity

Storage temperature range T

Stg

-55 +150 °C

Operating temperature range T

Amb

-40 +110 °C

Operating junction temperature range, Note 1 T

J

-40 +140 °C

Power supply, -40°C ≤ T

Amb

≤ +85°C

V

CC

with respect to A/BGND V

CC

-0.4 6.5 V

V

EE

with respect to A/BGND V

EE

V

Bat

0.4 V

V

Bat

with respect to A/BGND, continuous V

Bat

-75 0.4 V

V

Bat

with respect to A/BGND, 10 ms V

Bat

-80 0.4 V

V

Bat2

with respect to A/BGND V

Bat2

V

Bat

0.4 V

Power dissipation

Continuous power dissipation at T

Amb

≤ +85 °CP

D

1.5 W

Ground

Voltage between AGND and BGND V

G

-5 VCC V

Relay Driver

Ring relay supply voltage BGND +13 V
Ring relay current 75 mA

Ring trip comparator

Input voltage V

DT

, V

DR

V

Bat

V

CC

V

Input current I

DT

, I

DR

-5 5 mA

Digital inputs, outputs (C1, C2, C3, DET)
Input voltage V

ID

-0.4 V

CC

V

Output voltage (DET not active) V

OD

-0.4 V

CC

V

Output current (DET) I

OD

30 mA

TIPX and RINGX terminals, -40°C < T

Amb

< +85°C, V

Bat

= -50V

Maximum supplied TIPX or RINGX current I

TIPX

, I

RINGX

-110 +110 mA

TIPX or RINGX voltage, continuous (referenced to AGND), Note 2 V

TA

, V

RA

V

Bat

2V

TIPX or RINGX, pulse < 10 ms, t

Rep

> 10 s, Note 2 VTA, V

RA

V

Bat

- 20 5 V

TIPX or RINGX, pulse < 1 µs, t

Rep

> 10 s, Note 2 VTA, V

RA

V

Bat

- 40 10 V

TIP or RING, pulse < 250 ns, t

Rep

> 10 s, Note 3 VTA, V

RA

V

Bat

- 70 15 V

Recommended Operating Condition

Parameter Symbol Min Max Unit

Ambient temperature T

Amb

-40 +85 °C

V

CC

with respect to AGND V

CC

4.75 5.25 V

V

EE

with respect to AGND V

EE

V

Bat

-4.75 V

V

Bat

with respect to BGND V

Bat

-58 -10 V

V

Bat2

with respect to BGND V

Bat

-10 V

Notes

1. The circuit includes thermal protection. Operation above max. junction temperature may degrade device reliability.

2. A diode in series with the VBat input increases the permitted continuous voltage and pulse < 10 ms to -85 V. A pulse
≤1µs is increased to the greater of |-70V| and |VBat -40V|.

3. R

F1

, FR2 ≥20 Ω is also required. Pulse is supplied to TIP and RING outside RF1, FR2.

PBL 386 65/2

3

Preliminary

Electrical Characteristics

-40 °C ≤ T

Amb

≤ +85 °C, VCC = +5V ±5 %, VEE = -5V ± 5%, V

Bat

= -58V to -40V, RLC=18.7kΩ, IL = 27 mA, ZL = 600 Ω, RF1, RF2 =0 Ω,

R

Ref

= 15kΩ, CHP = 68nF, CLP=0.33 µF, RT = 120 kΩ, RSG = 24 kΩ, RRX = 120 kΩ, AOV- and V

Bat2

pin not connected, unless

otherwise specified. Current definition: current is positive if flowing into a pin.

Ref

Parameter fig Conditions Min Typ Max Unit

Two-wire port

Overload level, V

TRO ,ILDC

≥ 10 mA 2 Active state

1% THD, Note 1 3.1 V

Peak

On-Hook, I

LDC

≤ 5 mA 1.4 V

Peak

Input impedance, Z

TR

Note 2 ZT/200

Longitudinal impedance, Z

LoT

, Z

LoR

0 < f < 100 Hz 20 35 Ω/wire

Longitudinal current limit, I

LoT

, I

LoR

active state 28 mA

rms

/wire

Longitudinal to metallic balance, B

LM

3 IEEE standard 455-1985, Z

TRX

=736Ω, active state

Normal polarity:

0.2 kHz < f < 1.0 kHz, T

amb

0-70°C63 dB

1.0 kHz < f < 3.4 kHz, T

amb

0-70°C58 dB

0.2 kHz < f < 1.0 kHz, T

amb

-40-85°C58 dB

1.0 kHz < f < 3.4 kHz, T

amb

-40-85°C54 dB

Reverse polarity:

0.2 kHz < f < 3.4 kHz, T

amb

-40-85°C54 dB

Longitudinal to metallic balance, B

LME

3 Active state

Normal polarity:

0.2 kHz < f < 1.0 kHz, T

amb

0-70°C63 dB

E

LO

1.0 kHz < f < 3.4 kHz, T

amb

0-70°C58 dB

B

LME

= 20 • Log 0.2 kHz ≤ f ≤ 1.0 kHz, T

amb

-40-85°C58 dB

V

TR

1.0 kHz < f < 3.4 kHz, T

amb

-40-85°C54 dB

Reverse polarity:

0.2 kHz < f < 3.4 kHz, T

amb

-40-85°C54 dB

Longitudinal to four-wire balance, B

LFE

3 Active state

Normal polarity:

0.2 kHz < f < 1.0 kHz, T

amb

0-70°C69 dB

E

LO

1.0 kHz < f < 3.4 kHz, T

amb

0-70°C64 dB

B

LFE

= 20 • Log 0.2 kHz ≤ f ≤ 1.0 kHz, T

amb

-40-85°C64 dB

V

TX

1.0 kHz < f < 3.4 kHz, T

amb

-40-85°C60 dB

Reverse polarity:

0.2 kHz < f < 3.4 kHz, T

amb

-40-85°C54 dB

Metallic to longitudinal balance, B

MLE

4 Active state

0.2 kHz < f < 3.4kHz 40 dB

VTR

B

MLE

= 20 • Log

V

LO

Figure 2. Overload level, V

TRO

, two-wire

port

1
<< R

L

, RL= 600 Ω

ωC
RT = 120 kΩ, RRX = 120 kΩ

Figure 3. Longitudinal to metallic (B

LME

)

and Longitudinal to four-wire (B

LFE

)

balance

1
<< 150 Ω, R

LR

= RLT = RL /2= 300Ω

ωC
RT = 120 kΩ, RRX = 120 kΩ

PBL 386 65/2

TIPX

RINGX

RSN

VTX

R

T

R

RX

E

RX

R

L

V

TRO

I

LDC

C

PBL 386 65/2

TIPX

RINGX RSN

VTX

R

T

R

RX

V

TX

R

LT

C

V

TR

R

LR

E

Lo

PBL 386 65/2

4

Preliminary

Parameter fig Conditions Min Typ Max Unit

Four-wire to longitudinal balance, B

FLE

4 Active state

E

RX

B

FLE

= 20 • Log

V

Lo

0.2 kHz < f < 3.4 kHz 40 dB

Two-wire return loss, r |Z

TR

+ ZL|
r = 20 • Log
|Z

TR

- ZL|

0.2 kHz < f < 0.5 kHz 25 dB

0.5 kHz < f < 1.0 kHz 27 dB

1.0 kHz < f < 3.4 kHz, Note 3 23 dB

TIPX idle voltage, V

Ti

active, IL < 5 mA - 1.5 V

RINGX idle voltage, V

Ri

active, IL < 5 mA V

Bat +

2.7 V

RINGX idle voltage, V

Ri

tip open, IL < 5 mA V

Bat +

3.0 V

V

TR

active, IL < 5 mA V

Bat

+4.2 V

Four-wire transmit port (VTX)
Overload level, V

TXO

, IL ≥ 10 mA 5 Load impedance > 20 kΩ, 1.55 V

Peak

On hook IL ≤ 5 mA 1% THD, Note 4 0.7 V

Peak

Output offset voltage, ∆V

TX

-60 60 mV

Output impedance, z

TX

0.2 kHz < f < 3.4 kHz 5 20 Ω

Four-wire receive port (RSN)
Receive summing node (RSN) dc voltage I

RSN

= 0 mA -25 GND +25 mV
Receive summing node (RSN) impedance 0.2 kHz < f < 3.4 kHz 10 50 Ω
Receive summing node (RSN) 0.3 kHz < f < 3.4 kHz
current (I

RSN

) to metallic loop current (IL) 400 ratio

gain,α

RSN

Frequency response

Two-wire to four-wire, g

2-4

6 relative to 0 dBm, 1.0 kHz. ERX = 0 V

0.3 kHz < f < 3.4 kHz -0.15 0.15 dB
f = 8.0 kHz, 12 kHz, 16 kHz -0.5 0 +0.1 dB

Figure 4. Metallic to longitudinal and
four-wire to longitudinal balance

1
<< 150 Ω, R

LT

= RLR = RL /2 =300Ω

ωC
RT = 120 kΩ, RRX = 120 kΩ

Figure 5. Overload level, V

TXO

, four-wire

transmit port

1
<< R

L

, RL = 600 Ω

ωC
R

T

= 120 kΩ, RRX = 120 kΩ

Ref

PBL 386 65/2

TIPX

RINGX RSN

VTX

R

T

R

RX

E

RX

R

LT

C

V

TR

R

LR

V

Lo

PBL 386 65/2

TIPX

RINGX RSN

V

TX

R

T

R

RX

R

L

I

LDC

C

E

L

V

TXO

PBL 386 65/2

5

Preliminary

Four-wire to two-wire, g

4-2

6 relative to 0 dBm, 1.0 kHz. EL = 0 V

0.3 kHz < f < 3.4 kHz -0.15 0.15 dB
f = 8 kHz, 12 kHz, -1.0 -0.2 0 dB
16 kHz -1.0 -0.3 0 dB

Four-wire to four-wire, g

4-4

6 relative to 0 dBm, 1.0 kHz. EL = 0 V

0.3 kHz < f < 3.4 kHz -0.15 0.15 dB

Insertion loss

Two-wire to four-wire, G

2-4

6 0 dBm, 1.0 kHz, Note 5

V

TX

G

2-4

= 20 • Log ,ERX = 0

V

TR

-6.22 -6.02 -5.82 dB

Four-wire to two-wire, G

4-2

6 0 dBm, 1.0 kHz, Notes 5, 6

V

TR

G

4-2

= 20 • Log ,EL = 0

E

RX

-0.2 0.2 dB

Gain tracking

Two-wire to four-wire R

LDC

≤ 2kΩ 6 Ref. -10 dBm, 1.0 kHz, Note 7

-40 dBm to +3 dBm -0.1 0.1 dB

-55 dBm to -40 dBm -0.2 0.2 dB

Four-wire to two-wire R

LDC

≤ 2kΩ 6 Ref. -10 dBm, 1.0 kHz, Note 7

-40 dBm to +3 dBm -0.1 0.1 dB

-55 dBm to -40 dBm -0.2 0.2 dB

Noise

Idle channel noise at two-wire C-message weighting 7 12 dBrnC
(TIPX-RINGX) Psophometrical weighting -83 -78 dBmp

Note 8

Harmonic distortion

Two-wire to four-wire 6 0 dBm, 1.0 kHz test signal -50 dB
Four-wire to two-wire 0.3 kHz < f < 3.4 kHz -50 dB

Battery feed characteristics

Constant loop current, I

Lconst

15

I

LProg

=

500

R

LC

18 < I

LProg

< 65 mA 0.92 I

LProg

I

LProg

1.08 I

LProg

mA

Tip open state TIPX current, I

Leak

7 S = closed; R = 7 kΩ -100 µA

Tip open state RINGX current, I

LRTO

7R

LRTO

= 0Ω, V

Bat

= -48V I

L

mA

R

LRTO

= 2.5 kΩ, V

Bat

= -48V 17 mA

Tip open state RINGX voltage, V

RTO

7I

LRTO

< 23 mA V

Bat

+ 5.8 V

Tip voltage (ground start) 7 Active state, Tip lead open (S open), -4 -2.5 - V

Ring lead to ground through 150 Ω

Tip voltage (ground start) 7 Active state, tip lead to -48 V -6 -3.1 - V

through 7 kΩ (S closed), Ring
lead to ground through 150 Ω

Open circuit state loop current, I

LOC

RL = 0Ω -100 0 100 µA

Ref

Parameter fig Conditions Min Typ Max Unit

Figure 6.
Frequency response, insertion loss,
gain tracking.

1
<< R

L

, RL = 600 Ω

ωC
R

T

= 120 kΩ, RRX = 120 kΩ

PBL 386 65/2

TIPX

RINGX RSN

VTX

R

T

R

RX

E

RX

R

L

V

TR

I

LDC

C

E

L

V

TX

PBL 386 65/2

6

Preliminary

Loop current detector

Programmable threshold, I

DET

I

LTh

=

500 0.9

•I

LThILTh

1.1•I

LTh

mA

R

LD

Progammable threshold in

I

LTh

=

500 0.9

•I

LThILTh

1.1•I

LTh

mA

Tip Open state, I

DET

R

LD

Ground key detector

Ground key detector threshold 11 15 19 mA
(I

LTIPX

and I

LRINGX

current differance to trigger ground key det.)

Line voltage measurement

Frequency f =

10

6

fHz

|V|

TR

+1

Ring trip comparator

Offset voltage, ∆V

DTDR

Source resistance, RS = 0 Ω -20 0 20 mV

Input bias current, I

B

IB = (IDT + IDR)/2 -50 -20 200 nA

Input common mode range, V

DT

, V

DR

V

Bat

+1 -1 V

Ring relay driver

Saturation voltage, V

OL

IOL = 50 mA 0.5 V

Off state leakage current, I

Lk

V

OH

= 12 V 100 µA

Digital inputs (C1, C2, C3)
Input low voltage, V

IL

0 0.5 V

Input high voltage, V

IH

2.5 V

CC

V

Input low current, I

IL

VIL = 0.5 -200 µA

Input high current, I

IH

VIH = 2.5 V 200 µA

Detector output (DET)
Output low current, I

OL

VOL < 0.6V 0.5 1 mA

Internal pull-up resistor 10 kΩ
Power dissipation (V

Bat

= -48V; V

Bat2

= -32V)

P

1

Open circuit state 14 mW

P

2

@ VEE=-5V Active state I

Lo

= 0 mA, IL = 0 mA 39 mW

P

3

@ VEE=-48V Active state ILo = 0 mA, IL = 0 mA 44 mW
P4 @ VEE=-5V Active state RL = 300Ω (off-hook) 710 mW
P

5

@ VEE=-5V Active state RL = 800Ω (off-hook) 340 mW
Power supply currents (V

Bat

= -48V)

V

CC

current, I

CC

Open circuit state 0.8 mA

V

EE

current, I

EE

Open circuit state -0.15 mA

V

Bat

current, I

Bat

Open circuit state -0.2 mA

V

CC

current, I

CC

Active state ILo= 0 mA, IL = 0 mA 2.0 mA

V

EE

current, I

EE

Active state ILo= 0 mA, IL = 0 mA -0.15 mA

V

Bat

current, I

Bat

Active state ILo= 0 mA, IL = 0 mA -0.7 mA

Power supply rejection ratios

VCC to 2- or 4-wire port Active state, f = 1 kHz, Vn = 100mV 28.5 35 dB
V

EE

to 2- or 4-wire port Active state, f = 1 kHz, Vn = 100mV 28.5 55 dB

V

Bat

to 2- or 4-wire port Active state, f = 1 kHz, Vn = 100mV 28.5 40 dB

V

Bat2

to 2- or 4-wire port Active state, f = 1 kHz, Vn = 100mV 28.5 60 dB

Temperature guard

Junction threshold temperature, T

JG

140 °C

Thermal resistance

28-pin PLCC, θ

JP28PLCC

39 °C/W

28-pin SSOP, θ

JP28SSOP

55 °C/W

Ref

Parameter fig Conditions Min Typ Max Unit