®
R
UCT
ROD CEMENT
TE P PL A
O LE
E
OB S NDE D R
5
MME HC551
CO
Data Sheet
E
HC5513
August 2003
FN3963.12
TR909 DLC/FLC SLIC with Low Power
Standby
The HC5513 is a subscriber line interface circuit which is
interchangeable with Ericsson’s PBL3764 for distributed
central office applications. Enhancements include immunity
to circuit latch-up during hot plug and absence of false
signaling in the presence of longitudinal currents.
The HC5513 is fabricated in a High Voltage Dielectrically
Isolated (DI) Bipolar Process that eliminates leakage
currents and device latch-up problems normally associated
with Junction Isolated (JI) ICs. The elimination of the leakage
currents results in improved circuit performance for wide
temperature extremes. The latch free benefit of the DI
xxprocess guarantees operation under adverse transient
conditions. This process feature makes the HC5513 ideally
suited for use in harsh outdoor environments.
Features
• DI Monolithic High Voltage Process
• Programmable Current Feed (20mA to 60mA)
• Programmable Loop Current Detector Threshold and
Battery Feed Characteristics
• Ground Key and Ring Trip Detection
• Compatible with Ericsson’s PBL3764
• Thermal Shutdown
• On-Hook Transmission
• Wide Battery Voltage Range (-24V to -58V)
• Low Standby Power
• Meets TR-NWT-000057 Transmission Requirements
• -40
o
C to 85
o
C Ambient Temperature Range
Part Number Information
PART
NUMBER
HC5513BIP
TEMP. RANGE
(
o
C)
-40 to 85
PACKAGE
22 Ld PDIP
PKG. DWG. #
E22.4
Applications
• Digital Loop Carrier Systems
• Fiber-In-The-Loop ONUs
• Wireless Local Loop
• Hybrid Fiber Coax
• Related Literature
- AN9537, Operation of the HC5513/26 Evaluation Board
• Pair Gain
• POTS
• PABX
Block Diagram
RINGRLY
RING RELAY
DRIVER
4-WIRE
INTERFACE
VF SIGNAL
PATH
V
TX
RSN
DT
DR
RING TRIP
DETECTOR
TIP
RING
HPT
HPR
GROUND KEY
DETECTOR
V
BAT
V
CC
V
EE
AGND
BGND
BIAS
R
D
R
DC
RSG
DET
DIGITAL
MULTIPLEXER
2-WIRE
INTERFACE
LOOP CURRENT
DETECTOR
E0
E1
C1
C2
1
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
1-888-INTERSIL or 321-724-7143
|
Intersil (and design) is a registered trademark of Intersil Americas Inc.
Copyright © Intersil Americas Inc. 2003. All Rights Reserved
All other trademarks mentioned are the property of their respective owners.
HC5513
Absolute Maximum Ratings
Operating Temperature Range . . . . . . . . . . . . . . . . -40
o
C to 110
o
C
Power Supply (-40
o
C
≤
T
A
≤
85
o
C)
Supply Voltage V
CC
to GND . . . . . . . . . . . . . . . . . . . . 0.5V to 7V
Supply Voltage V
EE
to GND. . . . . . . . . . . . . . . . . . . . . -7V to 0.5V
Supply Voltage V
BAT
to GND . . . . . . . . . . . . . . . . . . . -70V to 0.5V
Ground
Voltage between AGND and BGND . . . . . . . . . . . . . -0.3V to 0.3V
Relay Driver
Ring Relay Supply Voltage . . . . . . . . . . . . . . . . . . . . . . 0V to 20V
Ring Relay Current. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50mA
Ring Trip Comparator
Input Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . V
BAT
to 0V
Input Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -5mA to 5mA
Digital Inputs, Outputs (C1, C2, E0, E1, DET)
Input Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0V to V
CC
Output Voltage (DET Not Active) . . . . . . . . . . . . . . . . . .0V to V
CC
Output Current (DET) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5mA
Tipx and Ringx Terminals (-40
o
C
≤
T
A
≤
85
o
C)
Tipx or Ringx Voltage, Continuous (Referenced to GND) .V
BAT
to 2V
Tipx or Ringx, Pulse < 10ms, T
REP
> 10s . . . . . .V
BAT
-20V to 5V
Tipx or Ringx, Pulse < 10µs, T
REP
> 10s . . . . V
BAT
-40V to 10V
Tipx or Ringx, Pulse < 250ns, T
REP
> 10s. . . . V
BAT
-70V to 15V
Tipx or Ringx Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70mA
ESD Rating
Human Body Model (Per MIL-STD-883 Method 3015.7) . . . .500V
Thermal Information
Thermal Resistance (Typical, Note 1)
θ
JAo
C/W
22 Lead PDIP Package . . . . . . . . . . . . . . . . . . . . . .
53
Continuous Dissipation at 70
o
C
22 Lead PDIP Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.5W
Package Power Dissipation at 70
o
C, t < 100ms, t
REP
> 1s
22 Lead PDIP Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4W
Derate above . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .70
o
C
Plastic DIP Package. . . . . . . . . . . . . . . . . . . . . . . . . . 18.8mW/
o
C
Maximum Junction Temperature Range . . . . . . . . . -40
o
C to 150
o
C
Maximum Storage Temperature Range . . . . . . . . . . -65
o
C to 150
o
C
Die Characteristics
Gate Count . . . . . . . . . . . . . . . . . . . . . . .543 Transistors, 51 Diodes
CAUTION: Stresses above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation of the
device at these or any other conditions above those indicated in the operational sections of this specification is not implied.
NOTE:
1.
θ
JA
is measured with the component mounted on an evaluation PC board in free air.
Typical Operating Conditions
These represent the conditions under which the part was developed and are suggested as guidelines.
PARAMETER
Case Temperature
V
CC
with Respect to AGND
V
EE
with Respect to AGND
V
BAT
with Respect to BGND
-40
o
C to 85
o
C
-40
o
C to 85
o
C
-40
o
C to 85
o
C
CONDITIONS
MIN
-40
4.75
-5.25
-58
TYP
-
-
-
-
MAX
100
5.25
-4.75
-24
UNITS
o
C
V
V
V
Electrical Specifications
PARAMETER
Overload Level
Longitudinal Impedance (Tip/Ring)
T
A
= -40
o
C to 85
o
C, V
CC
= 5V
±5%,
V
EE
= -5V
±5%,
V
BAT
= -28V, AGND = BGND = 0V, R
DC1
= R
DC2
=
41.2kΩ, R
D
= 39kΩ, R
SG
=
∞,
R
F1
= R
F2
= 0Ω, C
HP
= 10nF, C
DC
= 1.5µF, Z
L
= 600Ω.
CONDITIONS
1% THD, Z
L
= 600Ω, (Note 2, Figure 1)
0 < f < 100Hz (Note 3, Figure 2)
MIN
3.1
-
A
T
300Ω
V
T
TYP
-
20
MAX
-
35
V
TX
21
UNITS
V
PEAK
Ω/Wire
1V
RMS
TIP
5
R
L
600Ω
I
DCMET
23mA
RING
6
RSN
19
V
TX
21
R
T
600kΩ
E
RX
0 < f < 100Hz
E
L
C
2.16µF
300Ω
TIP
5
R
T
600kΩ
V
R
A
R
RING
6
RSN
19
V
TRO
R
RX
300kΩ
LZ
R
= V
R
/A
R
R
RX
300kΩ
LZ
T
= V
T
/A
T
FIGURE 1. OVERLOAD LEVEL (TWO-WIRE PORT)
FIGURE 2. LONGITUDINAL IMPEDANCE
2
HC5513
Electrical Specifications
PARAMETER
LONGITUDINAL CURRENT LIMIT (TIP/RING)
Off-Hook (Active)
On-Hook (Standby), R
L
=
∞
No False Detections, (Loop Current),
LB > 45dB (Note 4, Figure 3A)
No False Detections (Loop Current)
(Note 5, Figure 3B)
-
-
-
-
20
5
mA
PEAK
/Wire
mA
PEAK
/Wire
T
A
= -40
o
C to 85
o
C, V
CC
= 5V
±5%,
V
EE
= -5V
±5%,
V
BAT
= -28V, AGND = BGND = 0V, R
DC1
= R
DC2
=
41.2kΩ, R
D
= 39kΩ, R
SG
=
∞,
R
F1
= R
F2
= 0Ω, C
HP
= 10nF, C
DC
= 1.5µF, Z
L
= 600Ω.
(Continued)
CONDITIONS
MIN
TYP
MAX
UNITS
368Ω
A
C
E
L
2.16µF
-5V
R
DC2
A
368Ω
RING
R
DC
17 41.2kΩ
6
DET
39kΩ
R
D
R
DC1
41.2kΩ
C
DC
1.5µF
TIP
5
RSN
19
368Ω
A
2.16µF
E
L
-5V
2.16µF
C
R
DC2
A
368Ω
R
DC
RING
17 41.2kΩ
6
DET
C
39kΩ
R
D
TIP
5
RSN
19
R
DC1
41.2kΩ
C
DC
1.5µF
FIGURE 3A. OFF-HOOK
FIGURE 3. LONGITUDINAL CURRENT LIMIT
OFF-HOOK LONGITUDINAL BALANCE
Longitudinal to Metallic
Longitudinal to Metallic
Metallic to Longitudinal
IEEE 455 - 1985, R
LR
, R
LT
= 368Ω
,
0.2kHz < f < 4.0kHz (Note 6, Figure 4)
R
LR
, R
LT
= 300Ω, 0.2kHz < f < 4.0kHz (Note 6,
Figure 4)
FCC Part 68, Para 68.310
0.2kHz < f < 1.0kHz
1.0kHz < f < 4.0kHz (Note 7)
Longitudinal to 4-Wire
Metallic to Longitudinal
4-Wire to Longitudinal
0.2kHz < f < 4.0kHz (Note 8, Figure 4)
R
LR
, R
LT
= 300Ω, 0.2kHz < f < 4.0kHz (Note 9,
Figure 5)
0.2kHz < f < 4.0kHz (Note 10, Figure 5)
R
LT
TIP
5
E
L
C
V
TR
2.16µF
R
RX
R
LR
RING
6
RSN
19
300kΩ
V
TX
21
R
T
600kΩ
V
TX
V
L
300Ω
2.16µF
C
R
LR
300Ω
FIGURE 3B. ON-HOOK
55
55
50
50
55
50
50
70
70
55
55
70
55
55
-
-
-
-
-
-
-
dB
dB
dB
dB
dB
dB
dB
R
LT
TIP
5
E
TR
V
TX
21
R
T
600kΩ
R
RX
E
RX
RING
6
RSN
19
300kΩ
FIGURE 4. LONGITUDINAL TO METALLIC AND
LONGITUDINAL TO 4-WIRE BALANCE
FIGURE 5. METALLIC TO LONGITUDINAL AND 4-WIRE TO
LONGITUDINAL BALANCE
3
HC5513
Electrical Specifications
PARAMETER
2-Wire Return Loss
C
HP
= 20nF
T
A
= -40
o
C to 85
o
C, V
CC
= 5V
±5%,
V
EE
= -5V
±5%,
V
BAT
= -28V, AGND = BGND = 0V, R
DC1
= R
DC2
=
41.2kΩ, R
D
= 39kΩ, R
SG
=
∞,
R
F1
= R
F2
= 0Ω, C
HP
= 10nF, C
DC
= 1.5µF, Z
L
= 600Ω.
(Continued)
CONDITIONS
0.2kHz to 0.5kHz (Note 11, Figure 6)
0.5kHz to 1.0kHz (Note 11, Figure 6)
1.0kHz to 3.4kHz (Note 11, Figure 6)
TIP IDLE VOLTAGE
Active, I
L
= 0
Standby, I
L
= 0
RING IDLE VOLTAGE
Active, I
L
= 0
Standby, I
L
= 0
4-WIRE TRANSMIT PORT (V
TX
)
Overload Level
Output Offset Voltage
Output Impedance (Guaranteed by Design)
2- to 4-Wire (Metallic to V
TX
) Voltage Gain
(Z
L
> 20kΩ, 1% THD) (Note 12, Figure 7)
E
G
= 0, Z
L
=
∞,
(Note 13, Figure 7)
0.2kHz < f < 03.4kHz
0.3kHz < f < 03.4kHz (Note 14, Figure 7)
3.1
-60
-
0.98
-
-
5
1.0
-
60
20
1.02
V
PEAK
mV
Ω
V/V
-
-
-24
>-28
-
-
V
V
-
-
-4
<0
-
-
V
V
MIN
25
27
23
TYP
-
-
-
MAX
-
-
-
UNITS
dB
dB
dB
Z
D
TIP
5
R
V
S
R
Z
IN
RING
6
RSN
19
V
M
R
T
600kΩ
E
G
R
RX
300kΩ
V
TX
21
R
L
600Ω
2.16µF
C
V
TR
I
DCMET
23mA
R
RX
RING
6
RSN
19
300kΩ
TIP
5
V
TX
21
R
T
600kΩ
V
TXO
V
TX
Z
L
R
LR
FIGURE 6. TWO-WIRE RETURN LOSS
FIGURE 7. OVERLOAD LEVEL (4-WIRE TRANSMIT PORT),
OUTPUT OFFSET VOLTAGE, 2-WIRE TO 4-WIRE
VOLTAGE GAIN AND HARMONIC DISTORTION
4-WIRE RECEIVE PORT (RSN)
DC Voltage
R
X
Sum Node Impedance (Guaranteed by
Design)
Current Gain-RSN to Metallic
FREQUENCY RESPONSE (OFF-HOOK)
2-Wire to 4-Wire
4-Wire to 2-Wire
4-Wire to 4-Wire
0dBm at 1.0kHz, E
RX
= 0V
0.3kHz < f < 3.4kHz (Note 16, Figure 9)
0dBm at 1.0kHz, E
G
= 0V
0.3kHz < f < 3.4kHz (Note 17, Figure 9)
0dBm at 1.0kHz, E
G
= 0V
0.3kHz < f < 3.4kHz (Note 18, Figure 9)
-0.2
-0.2
-0.2
-
-
-
0.2
0.2
0.2
dB
dB
dB
I
RSN
= 0mA
0.3kHz < f < 3.4kHz
0.3kHz < f < 3.4kHz (Note 15, Figure 8)
-
-
980
0
-
1000
-
20
1020
V
Ω
Ratio
4
HC5513
Electrical Specifications
PARAMETER
INSERTION LOSS
2-Wire to 4-Wire
4-Wire to 2-Wire
GAIN TRACKING (Ref = -10dBm, at 1.0kHz)
2-Wire to 4-Wire
2-Wire to 4-Wire
4-Wire to 2-Wire
4-Wire to 2-Wire
-40dBm to +3dBm (Note 21, Figure 9)
-55dBm to -40dBm (Note 21, Figure 9)
-40dBm to +3dBm (Note 22, Figure 9)
-55dBm to -40dBm (Note 22, Figure 9)
-0.1
-
-0.1
-
-
±0.03
-
±0.03
0.1
-
0.1
-
dB
dB
dB
dB
0dBm, 1kHz (Note 19, Figure 9)
0dBm, 1kHz (Note 20, Figure 9)
-0.2
-0.2
-
-
0.2
0.2
dB
dB
T
A
= -40
o
C to 85
o
C, V
CC
= 5V
±5%,
V
EE
= -5V
±5%,
V
BAT
= -28V, AGND = BGND = 0V, R
DC1
= R
DC2
=
41.2kΩ, R
D
= 39kΩ, R
SG
=
∞,
R
F1
= R
F2
= 0Ω, C
HP
= 10nF, C
DC
= 1.5µF, Z
L
= 600Ω.
(Continued)
CONDITIONS
MIN
TYP
MAX
UNITS
GRX = ((V
TR1
- V
TR2
)(300k))/(-3)(600)
Where: V
TR1
is the Tip to Ring Voltage with V
RSN
= 0V
and V
TR2
is the Tip to Ring Voltage with V
RSN
= -3V
V
RSN
= 0V
R
RX
TIP
5
R
L
600Ω
RSN
19
300kΩ
R
DC1
41.2kΩ
E
G
R
DC2
RING
6
R
DC
17
41.2kΩ
C
DC
1/ωC << R
L
1.5µF
RING
6
RSN
19
R
RX
300kΩ
C
V
RSN
= -3V
R
L
600Ω
I
DCMET
V
TR
TIP
5
V
TX
21
R
T
600kΩ
V
TX
E
RX
V
TR
FIGURE 8. CURRENT GAIN-RSN TO METALLIC
NOISE
Idle Channel Noise at 2-Wire
Idle Channel Noise at 4-Wire
HARMONIC DISTORTION
2-Wire to 4-Wire
4-Wire to 2-Wire
BATTERY FEED CHARACTERISTICS
Constant Loop Current Tolerance
R
DCX
= 41.2kΩ
Loop Current Tolerance (Standby)
Open Circuit Voltage (V
TIP
- V
RING
)
LOOP CURRENT DETECTOR
On-Hook to Off-Hook
Off-Hook to On-Hook
Loop Current Hysteresis
GROUND KEY DETECTOR
R
D
= 39kΩ, -40
o
C to 85
o
C
R
D
= 39kΩ, -40
o
C to 85
o
C
R
D
= 39kΩ, -40
o
C to 85
o
C
I
L
= 2500/(R
DC1
+ R
DC2
),
-40
o
C to 85
o
C (Note 27)
I
L
= (V
BAT
-3)/(R
L
+1800),
-40
o
C to 85
o
C (Note 28)
-40
o
C to 85
o
C, (Active)
0dBm, 1kHz (Note 25, Figure 7)
C-Message Weighting (Note 23,
Figure 10)
C-Message Weighting (Note 24,
Figure 10)
FIGURE 9. FREQUENCY RESPONSE, INSERTION LOSS,
GAIN TRACKING AND HARMONIC DISTORTION
-
-
12
12
-
-
dBrnC
dBrnC
-
-
-65
-65
-54
-54
dB
dB
0dBm, 0.3kHz to 3.4kHz (Note 26,
Figure 9)
0.9I
L
0.8I
L
14
I
L
I
L
-
1.1I
L
1.2I
L
20
mA
mA
V
372/R
D
325/R
D
25/R
D
465/R
D
405/R
D
60/R
D
558/R
D
485/R
D
95/R
D
mA
mA
mA
5
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