ETC AM7947CPC

Am7947C
Subscriber Line Interface Circuit
DISTINCTIVE CHARACTERISTICS
Ideal for China National applications
Low standby power
–39.8 V to –58 V battery operation
On-hook transmission
Tip Open state for ground-start lines
Two-wire impedance set by single external
impedance
Programmable constant-current feed
Programmable loop-detect threshold
Current gain = 200
Polarity reversal option
On-chip Thermal Management (TMG) feature
On-chip ring and test relay driver and relay
snubber circuits
BLOCK DIAGRAM
TMG
Test Relay
Driver
TESTOUT
RINGOUT
Ring Relay
Driver
A(TIP)
C1
C2
HPA
Input Decoder
and Control
C3
C4
Two-Wire
Interface
DET
HPB
B(RING)
Signal
Transmission
VTX
Off-Hook
Detector
E0
RSN
RD
Power-Feed
Controller
DA
DB
RDC
CAS
Ring-Trip
Detector
VBAT
BGND
VCC
VEE
AGND/DGND
Publication# 080366
Issue Date: May 2001
Rev: B
ORDERING INFORMATION
Standard Products
Legerity standard products are available in several packages and operating ranges. The order number (Valid Combination) is
formed by a combination of the elements below.
Am7947C
J
C
TEMPERATURE RANGE
C = Commercial (0°C to 70°C)*
PACKAGE TYPE
J = 32-pin Plastic Leaded Chip Carrier (PL 032)
DEVICE NUMBER/DESCRIPTION
Am7947C
Subscriber Line Interface Circuit
Valid Combinations
Valid Combinations
JC
Am7947C
PC
DC
Valid Combinations list configurations planned to
be supported in volume for this device. Consult the
local Legerity sales office to confirm availability of
specific valid combinations, to check on newly
released combinations, and to obtain additional
data on Legerity’s standard military grade
products.
Note:
* Functionality of the device from 0°C to +70°C is guaranteed by production testing. Performance from –40°C to +85°C
is guaranteed by characterization and periodic sampling of production units.
2
Am7947C Data Sheet
CONNECTION DIAGRAMS
Top View
NC
VCC
NC
BGND
B(RING)
A(TIP)
DB
32-Pin PLCC
4
3
2
1
32
31
30
RINGOUT
6
28
DA
NC
7
27
RD
TMG
8
26
HPB
VBAT
9
25
NC
C3
10
24
HPA
C4
11
23
VTX
NC
12
22
VEE
TESTOUT
13
21
RSN
16
17 18
19 20
AGND/DGND
15
CAS
E0
14
RDC
TP
C1
29
C2
5
DET
TP
Notes:
1. Pin 1 is marked for orientation.
2. TP is a thermal conduction pin tied to substrate.
3. NC = No Connect
SLIC Products
3
PIN DESCRIPTIONS
4
Pin Names
Type
Description
AGND/DGND
Gnd
A(TIP)
Output
BGND
Gnd
B(RING)
Output
C4–C1
Input
CAS
Capacitor
DA
Input
Ring-trip negative. Negative input to ring-trip comparator.
DB
Input
Ring-trip positive. Positive input to ring-trip comparator.
DET
Output
E0
Input
DET enable. A logic High enables DET. A logic Low disables DET.
HPA
Capacitor
High-pass filter capacitor. A(TIP) side of high-pass filter capacitor.
HPB
Capacitor
High-pass filter capacitor. B(RING) side of high-pass filter capacitor.
NC
—
RD
Resistor
Detect resistor. Detector threshold set and filter pin.
RDC
Resistor
DC feed resistor. Connection point for the DC feed current programming network. The
other end of the network connects to the receiver summing node (RSN). The sign of VRDC
is negative for normal polarity and positive for reverse polarity.
RINGOUT
Output
RSN
Input
TESTOUT
Output
TMG
Thermal
Thermal management. External resistor connects between this pin and VBAT to offload
power dissipation from SLIC. Functions during normal polarity, Active state.
TP
Thermal
Thermal pin. Connection for heat dissipation. Internally connected to substrate (QBAT).
Leave as open circuit or connected to VBAT. In both cases, the TP pins can connect to
an area of copper on the board to enhance heat dissipation.
VBAT
Battery
Battery supply and connection to substrate.
VCC
Power
+5 V power supply.
VEE
Power
–5 V power supply.
VTX
Output
Transmit audio. This output is a unity gain version of the A(TIP) and B(RING) metallic voltage. VTX also sources the two-wire input impedance programming network.
Analog and Digital ground.
Output of A(TIP) power amplifier.
Battery (power) ground.
Output of B(RING) power amplifier.
Decoder. SLIC control pins. C4 is MSB and C1 is LSB. TTL compatible.
Anti-saturation pin for capacitor to filter reference voltage when operating in anti-saturation region.
Switchhook detector. When enabled, a logic Low indicates that selected condition is detected. The detect condition is selected by the logic inputs (C3–C1 and E0). The output
is open-collector with a built-in 15 kΩ pull-up resistor.
No connect This pin is not internally connected.
Ring relay driver. Open collector driver with emitter internally connected to BGND.
Receive summing node. The metallic current (AC and DC) between A(TIP) and B(RING)
is equal to 200 times the current into this pin. The networks that program receive gain,
two-wire impedance, and feed resistance all connect to this node.
Test relay driver. Open collector driver with emitter internally connected to AGND.
Am7947C Data Sheet
ABSOLUTE MAXIMUM RATINGS
OPERATING RANGES
Storage temperature ......................... –55°C to +150°C
Commercial (C) Devices
VCC with respect to AGND/DGND ........ –0.4 V to +7 V
Ambient temperature .............................0°C to +70°C*
VEE with respect to AGND/DGND......... +0.4 V to –7 V
VCC .....................................................4.75 V to 5.25 V
VBAT with respect to AGND/DGND:
VEE ..................................................–4.75 V to –5.25 V
Continuous..................................... +0.4 V to –70 V
VBAT ...................................................–38.9 V to –58 V
10 ms ............................................. +0.4 V to –75 V
AGND/DGND .......................................................... 0 V
BGND with respect to AGND/DGND........ +3 V to –3 V
BGND with respect to
AGND/DGND........................ –100 mV to +100 mV
A(TIP) or B(RING) to BGND:
Continuous ....................................... –70 V to +1 V
10 ms (f = 0.1 Hz) ............................. –70 V to +5 V
1 µs (f = 0.1 Hz) ................................ –80 V to +8 V
250 ns (f = 0.1 Hz) .......................... –90 V to +12 V
Current from A(TIP) or B(RING) ....................... ±150 mA
RINGOUT/TESTOUT current ............................50 mA
Load resistance on VTX to ground .............. 10 kΩ min
Operating Ranges define those limits between which device
functionality is guaranteed.
* Functionality of the device from 0°C to +70°C is guaranteed
by production testing. Performance from –40°C to +85°C is
guaranteed by characterization and periodic sampling of production units.
RINGOUT/TESTOUT voltage ............... BGND to +7 V
RINGOUT/TESTOUT transient ........... BGND to +10 V
DA and DB inputs
Voltage on ring-trip inputs .....................VBAT to 0 V
Current into ring-trip inputs ............................ ±10 mA
C4–C1 and E0
Input voltage .........................–0.4 V to VCC + 0.4 V
Maximum power dissipation, continuous,
TA = 70°C, No heat sink (See note):
In 32-pin PLCC package................................1.7 W
Thermal Data ................................................................. θJA
In 32-pin PLCC package....................... 43°C/W typ
Note: Thermal limiting circuitry on chip will shut down the
circuit at a junction temperature of about 165°C. The device
should never be exposed to this temperature, and operation
above 145°C junction temperature may degrade device
reliability.
Stresses above those listed under Absolute Maximum Ratings
may cause permanent device failure. Functionality at or above
these limits is not implied. Exposure to Absolute Maximum
Ratings for extended periods may affect device reliability.
SLIC Products
5
ELECTRICAL CHARACTERISTICS
Description
Test Conditions (See Note 1)
Min
Typ
Max
Unit
Note
dB
1, 4, 7
Ω
4
mV
—
4
Vpk
2a
Vrms
2b
dB
5
dB
—
4
Transmission Performance
2-wire return loss
200 Hz to 3.4 kHz
26
Analog output (VTX)
impedance
3
Analog (VTX) output
offset voltage
0°C to +70°C
–40°C to +85°C
–40
–45
Overload level, 2-wire
and 4-wire
Active state
2.5
Overload level
On hook, RLAC = 600 Ω
0.9
THD (Total Harmonic
Distortion)
0 dBm
+7 dBm
THD, on hook
0 dBm, RL = 600 Ω
+40
+45
–64
–55
–50
–40
–35.5
Longitudinal Capability (See Test Circuit D)
Longitudinal to metallic
L-T, L-4
200 Hz to 3.4 kHz
0°C to +70°C
–40°C to +85°C
52
50
70
Longitudinal signal
generation 4-L
200 Hz to 800 Hz
normal polarity
40
Longitudinal current per pin
Active state
OHT state
20
10
Longitudinal impedance at
A or B
0 to 100 Hz
25
35
Ω/pin
C-message weighted noise
RL = 600 Ω
+7
+14
dBrnC
Psophometric weighted noise
RL = 600 Ω
–83
–76
dBmp
35
17.5
mArms
Idle Channel Noise
4
Insertion Loss (2- to 4-Wire and 4- to 2-Wire, See Test Circuits A and B)
Gain accuracy over
temperature
0 dBm, 1 kHz
0°C to +70°C
–40°C to +85°C
–0.15
–0.20
+0.15
+0.20
Gain accuracy over frequency
300 Hz to 3400 Hz
0°C to +70°C
–40°C to +85°C
–0.1
–0.15
+0.1
+0.15
+3 dBm to –55 dBm
0°C to +70°C
–40°C to +85°C
–0.1
–0.15
+0.1
+0.15
4
4
On-hook, OHT state
–1.0
+1.0
4
3
4
Gain tracking relative to 0 dBm
Gain accuracy
—
4
dB
5
4
Balance Return Signal (4- to 4-Wire)
Gain accuracy over
temperature
Ref: 0 dBm, 1 kHz
0°C to +70°C
–40°C to +85°C
–0.15
–0.20
+0.15
+0.20
Gain accuracy over frequency
300 Hz to 3400 Hz
0°C to +70°C
–40°C to +85°C
–0.1
–0.15
+0.1
+0.15
+3 dBm to –55 dBm
0°C to +70°C
–40°C to +85°C
–0.1
–0.15
+0.1
+0.15
Gain tracking relative to 0 dBm
Group delay
6
0 dBm, 1 kHz
4
Am7947C Data Sheet
dB
3
4
3, 4
4
µs
4, 7
ELECTRICAL CHARACTERISTICS (continued)
Description
Test Conditions (See Note 1)
Min
Typ
Max
27.7
27.4
30.5
30.5
33.3
33.3
Unit
Note
Line Characteristics
IL, Short loops, Active or OHT
RLDC = 600 Ω
IL, Long loops, Active or OHT
RLDC = 1900 Ω, BAT = 39.8 V
15
IL, Long loops, Active or OHT
RLDC = 1900 Ω, BAT = 48.0 V
18
IL, Accuracy, Standby state
IL
0°C to +70°C
–40°C to +85°C
V BAT – 3 V
= ------------------------------R L + 1800
TA = 25°C
RL = 600 Ω
IL, Loop current,
Tip Open state
RL = 0 Ω
B to GND
B to VBAT +6 V
IL, Loop current,
Open Circuit state
RL = 0 Ω
ILLIM
Active, A and B to GND
VA, Active, ground-start
signaling
A to –48 V = 7 Ω,
B to GND = 100 Ω
18.6
mA
0.7IL
IL
13
18.7
0
30
30
VAB, Open circuit voltage
—
4
100
–7.5
–5
–39
–40.9
1.3IL
100
µA
mA
mA
100
µA
130
mA
4
V
Power Supply Rejection Ration (VRIPPLE = 100 mVrms), Active Normal State
VCC
50 Hz to 3.4 kHz
30
40
VEE
50 Hz to 3.4 kHz
28
35
VBAT
50 Hz to 3.4 kHz
28
50
Effective internal resistance
CAS pin to GND
85
170
255
On hook, Open Circuit state
25
100
On hook, Standby state
45
85
120
180
dB
5
5, 8
kΩ
4
Power Dissipation
On hook, OHT state
On hook, Active state
RTMG = Open
RTMG = 2 kΩ
180
195
270
300
Off hook, Standby state
RL = 600 Ω
860
1300
Off hook, OHT state
RTMG = Open, RL = 300 Ω
1280
1690
Off hook, Active state
RTMG = 2 kΩ, RL = 300 Ω
830
1200
mW
Supply Currents, Battery = –58 V
ICC, on-hook VCC
supply current
Open Circuit state
OHT state
Standby state
Active state, BAT = –48 V
1.7
4.9
2.2
6.3
2.5
7.5
3.0
8.5
IEE, on-hook VEE
supply current
Open Circuit state
OHT state
Standby state
Active state, BAT = –48 V
0.7
2.0
0.77
2.1
2.0
3.5
2.0
5.0
IBAT, on-hook VBAT
supply current
Open Circuit state
OHT state
Standby state
Active state, BAT = –48 V
0.18
0.19
0.45
4.2
1.0
4.7
1.5
5.7
mA
RFI Rejection
RFI rejection
100 kHz to 30 MHz
(See Figure F)
1.0
SLIC Products
mVrms
4
7
ELECTRICAL CHARACTERISTICS (continued)
Description
Test Conditions (See Note 1)
Min
Typ
Max
Unit
Note
Logic Inputs (C4–C1 and E0)
VIH, Input High voltage
2.0
V
VIL, Input Low voltage
IIH, Input High current
IIL, Input Low current
–75
C4–C1 and E0
40
–400
µA
Logic Output (DET)
VOL, Output Low voltage
IOUT = 0.3 mA, 15 kΩ to VCC
VOH, Output High voltage
IOUT = –0.1 mA, 15 kΩ to VCC
0.4
2.4
V
Ring-Trip Detector Input (DA, DB)
Bias current
Offset voltage
–500
–50
Source resistance = 2 MΩ
–50
0
RD = 33 kΩ, IT = 375/RD
–12
nA
+50
mV
12
%
+0.5
V
100
µA
Loop Detector
IT, Loop-detect threshold
tolerance
Relay Driver Output (RINGOUT)
On voltage
IOL = 35 mA
+0.3
Off leakage
VOH = +5 V
Zener breakover
IZ = 100 µA
Zener on voltage
IZ = 30 mA
10
On voltage
IOL = 35 mA
+0.5
Off leakage
VOH = +5 V
Zener breakover
IZ = 100 µA
Zener on voltage
IZ = 30 mA
6
7.2
V
Test Driver Output (TESTOUT)
6
+0.75
V
100
µA
7.2
V
10
RELAY DRIVER SCHEMATICS
TESTOUT
RINGOUT
BGND
8
AGND
Am7947C Data Sheet
6
SWITCHING CHARACTERISTICS
Symbol
Parameter
tshdd
E0 Low to DET Low
tshdo
E0 Low to DET High
Test Conditions
Switchhoook Detect State
(See Figure E)
Temperature
Ranges
0°C to +70°C
–40°C to 85°C
Min
Typ
Max
1.1
1.6
3.8
4.0
Unit
Note
µs
4
SWITCHING WAVEFORMS
E0 to DET
E0
DET
tshdo
tshdd
Note:
All delays measured at 1.4 V level.
Notes:
1. Unless otherwise noted, test conditions are BAT = –48 V, VCC = +5 V, VEE = –5 V, RL = 600 Ω, RDC1 = RDC2 = 8.2 kΩ,
RD = 33 kΩ, no fuse resistors, CHP = 0.33 µF, CDC = 0.33 µF, CCAS = 0.33 µF, D1 = 1N400x, two-wire AC input impedance
is a 600 Ω resistance synthesized by the programming network shown below.
VTX
RT1 = 60 kΩ
CT1 = 150 pF
RT2 = 60 kΩ
RSN
RRX = 60 kΩ
VRX
2. a. Overload level is defined when THD = 1%.
b. Overload level is defined when THD = 1.5%
3. Balance return signal is the signal generated at VTX by VRX. This specification assumes the two-wire AC load impedance
matches the programmed impedance.
4. Not tested in production. This parameter is guaranteed by characterization or correlation to other tests.
5. This parameter is tested at 1 kHz in production. Performance at other frequencies is guaranteed by characterization.
6. Tested with 0 Ω source impedance. 2 MΩ is specified for system design only.
7. Group delay can be greatly reduced by using a ZT network such as that shown in Note 1 above. The network reduces the
group delay to less than 2 µs. The effect of group delay on the linecard performance may be compensated for by synthesizing
complex impedance with the QSLAC™ or DSLAC™ device.
8. This parameter degrades when the SLIC is in the battery-dependent anti-sat region. See the DC Feed Characteristics section
on page 11 for a description of battery-dependent anti-sat region.
SLIC Products
9
Table 1.
State
C3 C2 C1
SLIC Decoding
Two-Wire Status
DET Output
0
0
0
0
Open Circuit
Ring trip
1
0
0
1
Ringing
Ring trip
2
0
1
0
Active
Loop detector
3
0
1
1
On-hook TX (OHT)
Loop detector
4
1
0
0
Tip Open
Loop detector
5
1
0
1
Standby
Loop detector
6
1
1
0
Active Polarity Reversal
Loop detector
7
1
1
1
OHT Polarity Reversal
Loop detector
Note:
C4 logic High enables the TESTOUT relay driver.
Table 2.
User-Programmable Components
Z T = 200 ( Z2WIN – 2R F )
ZT is connected between the VTX and RSN pins. The fuse
resistors are RF, and Z2WIN is the desired 2-wire AC input
impedance. When computing ZT, the internal current amplifier
pole and any external stray capacitance between VTX and
RSN must be taken into account.
ZL
200 • Z T
Z RX = ------------ • -------------------------------------------------G 42L Z T + 200 ( Z L + 2RF )
ZRX is connected from VRX to RSN. ZT is defined above, and
G42L is the desired receive gain.
500
R DC1 + R DC2 = --------------I LOOP
RDC1, RDC2, and CDC form the network connected to the RDC
pin. RDC1 and RDC2 are approximately equal. ILOOP is the
desired loop current in the constant-current region.
R DC1 + R DC2
C DC = 1.5 ms • --------------------------------RDC1 • R DC2
375
R D = --------- ,
IT
0.5 ms
C D = ---------------RD
RD and CD form the network connected from RD to –5 V and IT
is the threshold current between on hook and off hook.
1
C CAS = -----------------------------5
3.4 • 10 πf c
CCAS is the regulator filter capacitor and fc is the desired filter
cut-off frequency.
500
I OHT = --------------------------------R DC1 + R DC2
OHT loop current (constant-current region).
Thermal Management Equations (Normal Active and Tip Open States)
RTMG is connected from TMG to VBAT and is used to limit
power dissipation within the SLIC in Normal Active and Tip
Open states only.
V BAT – 6 V
R TMG ≥ ----------------------------ILOOP
2
Power dissipated in the thermal management resistor, RTMG,
during Active and Tip Open states.
( V BAT – 6 V – ( I L • R L ) )
P RTMG = ---------------------------------------------------------------R TMG
2
P SLIC = VBAT • I L – P RTMG – R L ( I L ) + 0.12 W
10
Power dissipated in the SLIC while in Active and Tip Open
states.
Am7947C Data Sheet
DC FEED CHARACTERISTICS
45
4
5
3
40
2
35
30
VAB (V)
1
25
20
15
Vbat 38V
Vbat 40V
Vbat 42V
Vbat 44V
Vbat 46V
Vbat 48V
2000 Ohms
600 Ohms
Idet
10
5
0
0
5
10
15
20
25
30
IL (mA)
RDC = 16,400 Ω
RD = 33 kΩ
Notes:
1. Constant-current region:
500I L = ---------R DC
2. Anti-sat turn-on:
VAB = 0.69 |VBAT| + 5.8,
VAB = 33.4,
|VBAT| ≤ 40.0 V
|VBAT| > 40.0 V
3. Open Circuit voltage:
VAB = 0.69 |VBAT| + 8.47,
VAB = 40.9,
|VBAT| ≤ 47.0 V
|VBAT| > 47.0 V
4. Anti-sat (IL > IDET):
R DC
a. VAB = 0.69 V BAT + 9.967 – I L ----------- ,
120
4a ≤ 4b
R DC
b. VAB = 45.9 – I L ----------- ,
40
4a > 4b
RDC
5. Anti-sat region (IL < IDET): a. VAB = 0.69 V BAT + 8.47 – I L ----------- ,
120
R DC
b. V AB = 40.9 – I L ----------- ,
40
5a ≤ 5b
5a > 5b
6. Loop-detect threshold (IDET): I DET = 375
--------RD
7. Anti-sat transition region, off-hook to on-hook.
8. Anti-sat transition region, on-hook to off-hook.
a. VA–VB (VAB) Voltage vs. Loop Current (Typical)
SLIC Products
11
DC FEED CHARACTERISTICS (continued)
RDC = 22.72 kΩ
VBAT = 48 V
RD = 35.4 kΩ
b. Loop Current vs. Load Resistance (Typical)
A
a
RL
SLIC
RSN
IL
RDC1
b
RDC2
B
RDC
Feed current programmed by RDC1 and RDC2
c. Feed Programming
Figure 1. DC Feed Characteristics
12
Am7947C Data Sheet
CDC
TEST CIRCUITS
VTX
A(TIP)
VTX
A(TIP)
RL
RT
2
SLIC
VAB
VL
SLIC
VAB
AGND
RL
2
RL
RT
AGND
RRX
RRX
B(RING) RSN
B(RING) RSN
IL2-4 = 20 log (VTX / VAB)
IL4-2 = 20 log (VAB / VRX)
VRX
BRS = 20 log (VTX / VRX)
A. Two- to Four-Wire Insertion Loss
1
ωC
B. Four- to Two-Wire Insertion Loss and Balance Return Signal
ZD
<< RL
RL
2
C
S1
VL
SLIC
VAB
VL
A(TIP)
VTX
A(TIP)
RT1
RT
VM
VS
S2
B(RING)
SLIC
R
AGND
RL
2
VTX
RRX
AGND
R
ZIN
RSN
VRX
S2 Open, S1 Closed
L-T Long. Bal. = 20 log (VAB / VL)
RT2
B(RING)
RSN
Note:
ZD is the desired impedance (e.g., the
characteristic impedance of the line).
L-4 Long. Bal. = 20 log (VTX / VL)
S2 Closed, S1 Open
CT1
RRX
RL = –20 log (2 VM / VS)
4-L Long. Sig. Gen. = 20 log (VL / VRX)
D. Two-Wire Return Loss Test Circuit
C. Longitudinal Balance
SLIC Products
13
TEST CIRCUITS (continued)
VCC
6.2 kΩ
A(TIP)
DET
15 pF
RL = 600 Ω
E1
B(RING)
E. Loop-Detector Switching
L1
200 Ω
C1
RF1
50 Ω
A(TIP)
CAX
33 nF
RF2
50 Ω
200 Ω
B(RING)
HF
GEN
50 Ω
L2
C2
CBX
33 nF
VTX
SLIC
under test
1.5 Vrms
80% Amplitude
Modulated
100 kHz to 30 MHz
F. RFI Test Circuit
14
Am7947C Data Sheet
TEST CIRCUITS (continued)
–5 V
+5 V
VCC
VEE
DA
DB
RD
RD
VTX
VTX
2.2 nF
A(TIP)
A(TIP)
RT
HPA
RRX
CHP
RSN
VRX
HPB
B(RING)
B(RING)
RDC2
2.2 nF
RDC
RINGOUT
RDC1
CDC
TESTOUT
AGND/
DGND
BGND
VBAT
BAT
D1
BATTERY
GROUND
E0
C4
C3
C2
ANALOG
GROUND
C1
TMG
RTMG
DET
CAS
DIGITAL
GROUND
CCAS
G. Am7947C Test Circuit
SLIC Products
15
Physical Dimensions for PL 032
Dwg rev AH; 08/00
16
Am7947C Data Sheet
REVISION SUMMARY
Revision A to B
•
Minor changes were made to the data sheet style and format to conform to Legerity standards.
•
Deleted the Ceramic DIP and Plastic DIP packages and references to them.
•
The physical dimension (PL032) was added to the Physical Dimensions section.
SLIC Products
17
Notes:
www.legerity.com
18
Am7947C Data Sheet
Legerity provides silicon solutions that enhance the performance, speeds time-to-market, and lowers the system
cost of our customers' products. By combining process, design, systems architecture, and a complete set of
software and hardware support tools with unparalleled factory and worldwide field applications support, Legerity
ensures its customers enjoy a smoother design experience. It is this commitment to our customers that places
Legerity in a class by itself.
SLIC Products
19
The contents of this document are provided in connection with Legerity, Inc. products. Legerity makes no representations or warranties with respect to the accuracy or completeness of the contents of this publication and reserves the right to make changes to specifications and product
descriptions at any time without notice. No license, whether express, implied, arising by estoppel or otherwise, to any intellectual property rights
is granted by this publication. Except as set forth in Legerity's Standard Terms and Conditions of Sale, Legerity assumes no liability whatsoever,
and disclaims any express or implied warranty, relating to its products including, but not limited to, the implied warranty of merchantability, fitness
for a particular purpose, or infringement of any intellectual property right.
Legerity's products are not designed, intended, authorized or warranted for use as components in systems intended for surgical implant into the
body, or in other applications intended to support or sustain life, or in any other application in which the failure of Legerity's product could create
a situation where personal injury, death, or severe property or environmental damage may occur. Legerity reserves the right to discontinue or
make changes to its products at any time without notice.
© 2001 Legerity, Inc.
All rights reserved.
Trademarks
Legerity, the Legerity logo and combinations thereof, DSLAC and QSLAC are trademarks of Legerity, Inc.
Other product names used in this publication are for identification purposes only and may be trademarks of their respective companies.
20
Am7947C Data Sheet
Americas
Mailing:
P.O. Box 18200
Austin, TX 78760-8200
Shipping: 4509 Freidrich Lane
Austin, TX 78744-1812
ATLANTA
6465 East Johns Crossing, Suite 400
Duluth, GA USA 30097
MainLine: 770-814-4252
Fax: 770-814-4253
AUSTIN
4509 Freidrich Lane
Austin, TX USA 78744-1812
MainLine: 512-228-5400
Fax: 512-228-5510
BOSTON
6 New England Executive Park Suite 400
Burlington, MA USA 01803
MainLine: 781-229-7320
Fax: 781-272-3706
CHICAGO
8770 W. Bryn Mawr, Suite 1300
Chicago, IL USA 60631
MainLine: 773-867-8034
Fax: 773-867-2910
DALLAS
4965 Preston Park Blvd., Suite 280
Plano, TX USA 75093
MainLine: 972-985-5474
Fax: 972-985-5475
HUNTSVILLE
600 Boulevard South, Suite 104
Huntsville, AL USA 35802
MainLine: 256-705-3504
Fax: 256-705-3505
IRVINE
1114 Pacifica Court, Suite 250
Irvine, CA USA 92618
MainLine: 949-753-2712
Fax: 949-753-2713
NEW JERSEY
3000 Atrium Way, Suite 270
Mt. Laurel, NJ USA 08054
MainLine: 856-273-6912
Fax: 856-273-6914
OTTAWA
600 Terry Fox Drive
Ottawa, Ontario, Canada K26 4B6
MainLine: 613-599-2000
Fax: 613-599-2002
RALEIGH
2500 Regency Parkway, Suite 226
Cary, NC USA 27511
MainLine: 919-654-6843
Fax: 919-654-6781
SAN JOSE
1740 Technology Drive, Suite 290
San Jose, CA USA 95110
MainLine: 408-573-0650
Fax: 408-573-0402
Telephone: (512) 228-5400
Fax: (512) 228-5510
North America Toll Free: (800) 432-4009
Worldwide Sales Offices
Asia
Europe
HONG KONG
Units 2401-2, 24th Floor
Jubilee Centre, 18 Fenwick Street
Wanchai, Hong Kong
MainLine: 852-2864-8300
Fax: 852-2866-1323
BELGIUM
Baron Ruzettelaan 27
8310 Brugge
Belgium
MainLine: 32-50-28-88-10
Fax: 32-50-27-06-44
KOREA
135-090 18th Fl., Kyoung Am Bldg
157-26, Samsung-dong, Kangnam-ku
Seoul, Korea
MainLine: 82-2-565-5951
Fax: 82-2-565-3788
FRANCE
7, Avenue G. Pompidou
Suite 402
92300 Levallois-Perret, France
MainLine: 33-1-47-48-2206
Fax: 33-1-47-48-2568
SHANGHAI
Shanghai P.O. Box 232022
Shanghai PR China 200232
MainLine: 86-21-54233253
Fax: 86-21-54233254
GERMANY
Elisabethstrasse 89-91
80797 München, Germany
MainLine: 49-89-5908-0
Fax: 49-89-5908-1308
SHENZHEN
Room 310, Tower 9
Jinxiu Street 30 Futian District
Shenzhen, PR China 518040
MainLine: 86-755-3706-667
Fax: 86-755-3706-520
ITALY
Via F. Rosselli 3/2
20019 Settimo Mse, Milano Italy
MainLine: 39-02-3355521
Fax: 39-02-33555232
SINGAPORE
Serangoon Central Post Office
P.O. Box 537
Singapore 915502
MainLine: 65-2803267
Fax: 65-2855869
TOKYO
Shinjuku NS Bldg. 5F
2-4-1 Nishi Shinjuku, Shinjuku-ku
Tokyo, Japan 163-0805
MainLine: 81-3-5339-2011
Fax: 81-3-5339-2012
SWEDEN
Frösundaviks Allé 15, 4tr
SE-16970 Solna
Sweden
MainLine: 46-8-509-045-45
Fax: 46-8-509-046-36
UK
Unit 26, Kingspark Business Centre
152-178 Kingston Road
KT3 3ST New Malden, Surrey UK
MainLine: 44-208-241-2125
Fax: 44-208-241-2126
To download or order product literature, visit our website at www.legerity.com.
To order literature in North America, call:(800) 572-4859
or email: [email protected]
To order literature in Europe or Asia, call: 44-0-1179-341607
or email: Europe — [email protected]
Asia — [email protected]