ETC AG2120

V2.0October 2002
Advance data Sheet
Silver
TELECOM
Ag2120
FULLY FEATURED
P S T N IN T E R F A C E
FEATURES
• A highly featured PSTN Interface (COIC,
FXO, DAA, Trunk Interface) in a single DIL
or 12mm high SIL device.
• +5V or +3.3V supply.
TIP
RING
V IN
TRUNK
V OUT
Control and
Supervision
• Transformer isolation providing high
common mode rejection (CMRR) for use in
un-grounded systems.
• Highly integrated with on board loop switch
and integral diode bridge.
• Loop start circuit, ringing detect and loop
current detection. Parallel phone detect.
• Tip-ring polarity reversal detect (for Caller
Line ID and remote metering) and on-hook
reception.
• Meets requirements of EN60950/UL1950,
and FCC Pt68. Low cost power cross
protection.
• Programmable d.c. mask, line and network
impedances.
• Silver Telecom “design-in” assistance.
DESCRIPTION
The Ag2120 is a self-contained highly
integrated PSTN Interface Circuit in a single
SIL or DIL Module.
In addition to the features listed, the Ag2120
allows flexible programming of many
functions, including the dc voltage mask and
impedances. The Ag2120 meets international
safety and regulatory requirements.
© Silver Telecom 2002
The device requires a minimum of external
components and has been specified for ease
of use, to reduce time to market.
The Ag2120 is designed for all applications,
including those where there is a high level of
common mode interference, such as PABX,
long loop applications and systems without a
ground.
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
Ordering Information
Ag2120D
Ag2120S
Fully featured Trunk in DIL package
Fully featured Trunk in SIL package
Ag2120
Silver
TELECOM
Figure 1: Ag2120D - DIL Packaging Format
Silver
Ag2120
T E L EC O M
Figure 2: Ag2120S - SIL Packaging Format
V CC
DMa
DMb
GND
Power
Management
Line
Termination
&
Loop
Switch
Tip
Ring
Anode
2-4 Wire
Converter
V out
V in
RS
LC
LSC
F/R
Supervision
Gate
Cathode
Figure 3: Functional Block Diagram
© Silver Telecom 2002
Z T1
Z T2
Zb
V TR
Vref
Page 2
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
1.0 Pin Description
1.1 DIL Pin-Out
Pin #
Name
Description
1
TIP (A)
2
RING (B)
3
CATHODE
4
ANODE
Anode. For power cross protection connect to protection device anode.
5
DMa
DC Mask a. A resistor is connected between this pin and DMb to adjust
the d.c. characteristics of the termination.
6
DMb
DC Mask b. A resistor is connected between this pin and DMa to adjust
the d.c. characteristics of the termination.
7
GATE
Gate. For power cross protection connect to protection device gate.
8
GND
Analog ground. Normally connected to system ground.
9
VCC
Positive supply. Must be connected to +5V or +3.3V.
Tip. Connects to the subscriber line Tip.
Ring. Connects to the subscriber line Ring.
Cathode. For power cross protection connect to protection device
cathode.
2 Wire matching network 2. The 2 wire impedance matching network
is connected between this pin and ZT1. The compensation impedance Zc
is connected between this pin and Zb.
2 Wire matching network 1. The 2 wire impedance matching network
is connected between this pin and ZT2.
10
ZT2
11
ZT1
12
Zb
Balance network. The network balance matching components are
connected between this pin, VIN and GND.
13
VIN
Audio In. This is the analog input signal from the Codec (which is output
on Tip and Ring). Connected via a 100nF capacitor.
14
nc
No connect. This pin is not used and can be left open circuit.
15
VOUT
Audio Out. This is the analog output signal (from Tip and Ring) to the
Codec. Connected via a 100nF capacitor.
16
F/R
Forward/reverse. A logic 1 indicates that the Tip and Ring polarities
are reversed. i.e. Tip is negative with respect to Ring.
17
LC
Loop current. A logic 1 Indicates that loop current is flowing.
18
LSC
19
RS
Ringing signal. A logic 0 indicates the presence of ringing voltage on
the telephone line. Toggles at ringing frequency.
20
VREF
Reference voltage. Used with VTR to detect off-hook parallel phone.
Normally left open circuit. Approx. +1.9V
21
VTR
Tip/Ring voltage. Indicates the voltage at Tip/Ring. Divided by 50 and
relative to Vref.
© Silver Telecom 2002
Loop switch control. Applying a logic 1 closes the integral loop switch.
Page 3
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
1.2 SIL Pin-Out
Pin #
Name
1
RING (B)
2
TIP (A)
3
CATHODE
4
ANODE
5
GATE
6
DMb
DC Mask b. A resistor is connected between this pin and DMa to adjust
the d.c. characteristics of the termination.
7
DMa
DC Mask a. A resistor is connected between this pin and DMb to adjust
the d.c. characteristics of the termination.
8
LC
Loop current. A logic 1 Indicates that loop current is flowing.
9
VIN
Audio In. This is the analog input signal from the Codec (which is output
on Tip and Ring). Connected via a 100nF capacitor.
10
VOUT
Audio Out. This is the analog output signal (from Tip and Ring) to the
Codec. Connected via a 100nF capacitor.
11
LSC
Loop switch control. Applying a logic 1 closes the integral loop switch.
12
GND
Analog ground. Normally connected to system ground.
13
VCC
Positive supply. Must be connected to +5V or +3.3V.
14
F/R
Forward/reverse. A logic 1 indicates that the Tip and Ring polarities
are reversed. i.e. Tip is negative with respect to Ring.
15
Zb
16
ZT2
17
ZT1
18
RS
Ringing signal. A logic 0 indicates the presence of ringing voltage on
the telephone line. Toggles at ringing frequency.
19
VREF
Reference voltage. Used with VTR to detect off-hook parallel phone.
Normally left open circuit. Approx. +1.9V
20
VTR
Tip/Ring voltage. Indicates the voltage at Tip/Ring. Divided by 50 and
relative to Vref.
© Silver Telecom 2002
Description
Ring. Connects to the subscriber line Ring.
Tip. Connects to the subscriber line Tip.
Cathode. For power cross protection connect to protection device
cathode.
Anode. For power cross protection connect to protection device anode.
Gate. For power cross protection connect to protection device gate.
Balance network. The network balance matching components are
connected between this pin, VIN and GND.
2 Wire matching network 2. The 2 wire impedance matching network
is connected between this pin and ZT1. The compensation impedance Zc
is connected between this pin and Zb.
2 Wire matching network 1. The 2 wire impedance matching network
is connected between this pin and ZT2.
Page 4
Ag2120
V2.0 October 2002
Advance Data Sheet
2.0
F U L L Y F E A T U R E D P S T N IN T E R F A C E
Line Interfacing
The Ag2120 line interface provides a flexible and
robust interface to the telephone line. It has been
designed to meet regulatory standards whilst providing
a space and power efficient solution.
2.1
D.C. Termination.
Any equipment terminating a telephone line must
present the correct d.c. resistance to the line. This
ensures that the correct current flows to be able to
detect the off hook condition, avoids excessive power
dissipation in the Subscriber Line Interface (SLIC) and
the Subscriber’s equipment, and minimises the size of
power supply needed to drive the SLIC.
ringing signal. The LSC pin can be controlled by the
output drive pins of a Codec or from a micro controller
device.
Once the Loop Switch has been closed confirmation
that loop current is flowing is provided by the LC pin.
This can be used for fault detection and for call clear
detection.
2.2.2 Ringing Detection and Sensitivity.
The terminal equipment must be capable of detecting
and responding to an incoming call in the same way as
a telephone set.
The termination circuitry must,
therefore, detect the presence of the ringing signal.
The Ag2120 has been designed to meet the
requirements of many network operators. This is done
by making the d.c. characteristic adjustable. These are
controlled by connecting the DM pins on the line side of
the circuit. Table 1 shows how these are connected.
The Ag2120 provides an output, RS, which indicates
the presence of ringing by switching from a logic 1 to
logic 0. The RS output will toggle at the ringing
frequency. A capacitor to ground can also be added if
ringing cadence is needed rather than the ringing
frequency.
Table 1 Set Up of the DM Pins
The sensitivity to ringing is set internally to 22VRMS
when VCC is +5V, or 14VRMS when VCC is +3.3V.
Market
DMa
DMb
North America
(EIA 464, Resistive)
Connect together through
390K resistor
Europe (CTR21)
Connect together through
390K resistor
Far East
Connect together through
390K resistor
2.2
2.2.3 Reversal Detect
The reversal of the battery polarity is used as a
signalling technique. The Ag2120 can detect this
condition and provides an output on the F/R pin,
whether in the on-hook or off-hook state.
Signalling and Loop Status.
The Ag2120 provides facilities to monitor and control
the telephone line. This allows the device to be used
with a variety of loop signalling schemes and minimises
the number of external components needed to
implement a complete line interface.
In order to implement ground start applications please
contact Silver Telecom or our local representative.
One example of this type of signalling is in Caller Line
ID in the United Kingdom, where a battery polarity
reversal precedes the transmission of data before the
ringing signal is applied to the line. Another example is
in some systems in the US where a reversal is used to
indicate far end answer.
3.0 The 2-4 Wire (Hybrid) Conversion.
The Ag2120 transmits and receives balanced 2-wire
analog signals at the Tip and Ring connections. These
are converted to a ground referenced output at VOUT
and from a ground referenced signal at VIN.
2.2.1 The On-Board Loop Switch
The Ag2120 implements the loop start protocol when
initiating and answering a call. This means that a
switch must be closed to allow loop current to flow,
signalling to the SLIC that the terminating equipment
has gone “off-hook”. This has been done historically
by a relay. The Ag2120 uses an integral optically
isolated switch to do this, eliminating the need for an
external relay, so space and cost is saved for the user.
The on-board Loop Switch is controlled by the LSC pin.
A logic 1 applied to the pin closes the loop switch. This
is done when the terminating equipment wishes to
begin a call or in response to the reception of the
© Silver Telecom 2002
VOUT and VIN are normally connected to a Codec (via
d.c. blocking capacitors) for conversion to and from a
Pulse Code Modulated (PCM) stream.
3.1 Transmit and Receive Gain.
The gain in both the transmit and receive directions is
set at 0dB. Any gain adjustments can be made using
the Codec functionality. This is either by hardware or
software depending upon the Codec used.
Page 5
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
eg.
2-wire
Impedance
ZT
ZC
Network
Balance
Impedance
Zb1
Zb2
Zb3
C3
Notes
1
600Ω
300Ω
47K
600Ω
100K
0R
---
---
USA Short Line,
Far East, Middle East
2
CTR21
TBA
TBA
CTR21
TBA
TBA
TBA
TBA
Europe
3
600Ω
300Ω
TBA
AT&T
compromise
TBA
TBA
TBA
TBA
USA Long Line
Table 2: Line and Network Balance Impedance Examples
3.2 The 2 Wire Impedance
The input impedance, ZIN, of the Ag2120 can be
programmed. This is achieved by connecting an
impedance matching network between ZT1 and ZT2.
This network is the line impedance to be matched
minus 300Ω. For example to match 600Ω, fit a 300Ω
resistor. Other common line impedances, and the
corresponding programming components are listed in
Table 2.
In addition to the programming network, an impedance,
ZFC, must be fitted between ZT2 and Zb to provide
frequency compensation.
An alternative method of programming the 2 wire
impedance is to choose a codec where the internal
filter characteristics can be programmed to provide the
correct matching. In order to generate the filter
V CC
coefficients a model of the Ag2120 must be used. This
file, in .CIR format is available on request from Silver
Telecom or one of our representatives.
Full details on how the Codec is programmed must be
obtained from the Codec manufacturer.
3.3
Network Balance Impedance
The setting of the network balance impedance is very
similar to that of the 2 wire impedance. Again this can
be done by programming of the Codec, using the .CIR
file, or it can be done by hardware components.
3.4
On-Hook Reception
The need to provide the facility for data exchange
On-Hook is becoming increasingly common, whether
for Caller Line I.D. or for telemetry purposes. The
ZT
Z b2
Z b3
ZC
C3
Z b1
V CC
DMa
Z T1
Z T2
Zb
V IN
Ag2120
R1
Codec
TIP
RS
LC
RING
GATE
C1
C2
V OUT
DMb
Ω application:
For 600Ω
R1 = 390K
Zb1 = 100K
Zb2 = 0R
Zb3 = NF
ZT = 300R
ZC = 47k
C1, C2 = 100nF
C3 = NF
GND
LSC
Silver
F/R
TELECOM
ANODE
CATHODE
GND
GND
Figure 4: Line Impedance and Network Balance Components
© Silver Telecom 2002
Page 6
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
Ag2120 can receive signals On-Hook, presenting a
high impedance to the line, i.e. while drawing a very
small current (5µ
µA approx) from the line.
3.5
Ringer Load Networks
The “dummy ringer” is usually a capacitive/resistive
load which is connected across TIP/RING. During a
call it is of sufficiently high impedance not to affect the
operation of the interface. The Ag2120 meets the
dummy ringer requirements for CTR21 (Europe), USA
and Asia.
4.0
Device Protection.
As with many of the requirements which must be met
by the Ag2120 the device protection is dependent upon
regulatory standards in the market in which the
equipment is deployed. Some examples are given
below, but these are not exhaustive.
For a more comprehensive overview of protection refer
to the Silver Telecom protection applications note,
which is available directly form Silver Telecom, via our
web-site (www.silvertel.com), or through our local
representative.
4.1
Examples of suitable devices are:Joyin JVR-14N201K;
Walsin VZ14D201KBS
Note: If varistors to ground are used for added
protection (e.g. more than 1500V) customers should be
aware that the FCC test generator for longitudinal tests
is rated at up to 1000A. 10Ω 2W wire wound surge
limiting resistors will also be needed.
4.2
UL1459 and UL1950 Protection.
To meet the UL1459 and UL1950 mains cross test 22Ω
2W wire wound surge resistors and 0.35A special
fuses (Bussman C515 or Littelfuse 220003) in a
balanced configuration are required. Alternatively a
Teccor F1250T fuse may be used without surge
limiting resistors.
It is also possible to use PTC thermistors to meet these
tests. The Raychem TR600-150 is designed for this
application. See Raychem application notes for further
details.
A typical application is shown in figure 6a.
4.3
FCC Pt 68 Requirements.
To withstand the FCC Pt68 longitudinal voltage surge
of 1500V no protection is required as the barrier will
withstand 1500V peak voltage to GND.
To withstand the FCC Pt68 metallic surges at 800V
requires a 130V AC varistor (which clamps at 300V
which is the rating of the loop switch transistor). A
14mm device should be used to withstand the two
100A 10/560us surges.
Other Standards.
The Ag2120 has provision for low cost mains cross
protection (CCITT K21): a 47Ω 2W wire wound surge
resistor and a PTC thermistor are sufficient to meet
regulatory approvals. A suitable device is the Walsin
PTD3A350H26. (Metallic protection with a single
device is all that is required as the Ag2120 will
withstand longitudinal voltages up to 1000Vrms to
ground without additional protection).
As an option, for improved off-hook power cross
ZT
ZC
Z T1
DMa
R1
DMb
Z b2
Z T2
C3
VoicePump DSP shown for illustration
purposes. Ag2120 can interface to any codec
Zb
Z b1
Ag2120
0V
C1
VIN
LOUT
VOUT
LIN
C2
VoicePump
VP140 DSP
Processor
Interface
RS
LC
TIP
PTC
X1
Silver
TELECOM
RING
AGPIO
LSC
F/R
V CC
Protection Circuit
Protection circuit depends
upon precise application
For 600R line and balance impedance:
V CC
C4
+
GND
C5
Typical protection:
Figure 5: Typical Application
© Silver Telecom 2002
Page 7
R1 = 390k
Z b1 = 100k
Z b2 = 0R
Z T = 300 Ω
Z C = 47k
C1, C2, C4 = 100nF
C3 = NF
C5 = 10uF
PTC = TR600-150 (Raychem)
X1 = TVB200SA (Raychem)
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
Ag2120
PTC
Central Office Line
Ag2120
PTC
TIP
X1
TIP
Central Office Line
RING
RING
TPP250
GATE
GATE
hook
ANODE
ANODE
CATHODE
CATHODE
Fig 6a: Standard Protection
Fig 6b: Protection for Off-hook
Figure 6: Protection Options
This protection arrangement is shown in figure 6b.
User/Network safety from mains power voltage
(UL1950/EN60950 paragraphs 2.1.1 and 6.2.1.4) must
be provided externally by a power supply with
reinforced or double insulation.
5.0
6.0 Layout
protection, the Ag2120 has been designed to interface
directly to the STM TPP25011.
Regulatory Standards
There are some aspects of international standards
which are not fully met by the Ag2120. These are
shown below. It is Silver Telecom’s policy to bring to
the attention of customers all known exceptions.
Signal tracks should be kept as short as possible.
Special attention should be paid to DMa and DMb, as
these are sensitive nodes.
The Ag2120 meets the requirements of EN60950
(1992) paragraph 6.2.1.2 for all countries except
Norway and Sweden. Please contact Silver Telecom if
the product is needed for Norway or Sweden.
© Silver Telecom 2002
Page 8
Ag2120
V2.0 October 2002
Advance Data Sheet
7.0
F U L L Y F E A T U R E D P S T N IN T E R F A C E
Absolute Maximum Ratings*
All Voltages are with respect to ground unless otherwise stated.
Parameter
Sym
Min
Max
Units
1 DC supply voltage
VCC
-0.3
6.0
V
2 DC battery voltage present between Tip and Ring (on-hook)
VTR
300
V
6.0
V
PTRUNK
0.75
W
5 Maximum power dissipation per module @ 25°C
PTOT
3.0
W
6 Maximum loop current
ILOOP
90
mA
7 Maximum ringing current (for 0.5 second)
IRING
185
mA
8 Storage Temperature
TS
3 Maximum voltage on programmable pin, LSC
-0.3
4 Maximum power dissipation per trunk @ 25°C
-40
+100
O
C
*Exceeding the above ratings may cause permanent damage to the product. Functional operation under these conditions is not implied.
Maximum ratings assume free air flow.
8.0
Recommended Operating Conditions*
All Voltages are with respect to ground unless otherwise stated.
Parameter
Symbol
Min
Typ
Max
Units
1
DC supply voltage (+5V operation)
VCC
4.75
5.0
5.25
V
2
DC supply voltage (+3.3V operation)
VCC
3.0
3.3
3.6
V
3
DC battery voltage on Tip and Ring
(on-hook)
VTIP
VRING
0
0
0
-48
-120
-120
V
V
4
DC loop current
ILOOP
0
25
85
mA
5
Operating Temperature
TOP
0
25
70
*Typical figures are at 25°C with nominal +5V supplies and are for design use only.
© Silver Telecom 2002
Page 9
O
C
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
9.0 DC Electrical Characteristics.
Characteristic
Sym
Min
2
Typ
Max
Units Test Comments
2.5
4.0
mA
85.0
mA
0.4
V
V
0.4
V
V
0.3
V
V
+5V operation
500
100
µA
µA
+5V operation
0.3
V
V
+3.3V operation
+3.3V operation
1
Supply current (per trunk),
3
on-hook
2
Loop current range
ILOOP
3
Status outputs, RS, F/R
Output low voltage
Output high voltage
VOL
VOH
4.5
Status outputs, RS, F/R
Output low voltage
Output high voltage
VOL
VOH
2.8
Control input, LSC
Input low voltage
Input high voltage
VIL
VIH
4.5
6
Control input, LSC
Input low current
Input high current
IIL
IIH
7
Control input, LSC
Input low voltage
Input high voltage
VIL
VIH
8
Control input, LSC
Input low current
Input high current
IIL
IIH
500
100
µA
mA
3
Status output LC
Output low voltage
Output high voltage
VOL
VOH
0.5
V
V
Status outputs LC
Output low voltage
Output high voltage
VOL
VOH
0.5
V
V
4
5
4
ICC
9
Off-hook DC voltage
10
Leakage current, Tip and Ring to
analog ground
ILA
11
Leakage current on-hook, Tip to
Ring
ILTR
14.0
2.8
4.5
2.8
+5V operation
@ 50µA
@ -50µA
+3.3V operation
@ 50µA
@ -50µA
+5V operation
@ 50µA
@ -50µA
+3.3V operation
@ 50µA
@ -50µA
V
ILOOP = 20mA
DMa-DMb = TBA
35
µA
100VDC
35
µA
5.7
All DC Electrical Characteristics are over the Recommended Operating Conditions with VCC at +5.0V +5%, unless otherwise stated.
1 For test circuit details please contact Silver Telecom
2 Typical figures are at 25°C with nominal +5V supply and 25mA loop current, unless otherwise stated. These figures are for design aid only.
3 Operating currents are dependant on the users application.
© Silver Telecom 2002
Page 10
1
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
10.0 AC Electrical Characteristics.
Characteristic
Sym
1
Ringing voltage: detect
Ringing voltage: no detect
VRD
2
Ringing voltage: detect
Ringing voltage: no detect
VRD
3
Ringing frequency
FR
4
Input Impedance at VIN
5
Output impedance at Vout
6
Absolute voltage gain, 2 Wire to
VOUT
7
Min
Typ*
Max
Units
Test Comments
26
22
22
18
VRMS
+5V operation
14
14
10
VRMS
+3.3V operation
18
15
68
Hz
kΩ
100
10
Ω
-0.5
+0.5
dB
Off-hook
Absolute voltage gain, VIN to
2 Wire
-0.5
+0.5
dB
Off-Hook
8
On-hook gain, 2 Wire to VOUT
-0.5
+0.5
dB
9
Relative gain, referenced to
1kHz. 2Wire - Vout, Vin - 2Wire
-0.5
+0.5
dB
200 - 3400 Hz
10
Total harmonic distortion @
2Wire and Vout
THD
0.1
1.0
%
@0dBm, 1kHz
11
Overload distortion @2 Wire and
2
Vout
OD
0.5
5.0
%
@+3dBm,
1kHz
12
Common mode rejection ratio
CMRR
dB
50 – 500Hz
VCM = 60VRMS
13
Common mode overload level
CMOL
250
VRMS
50 – 60Hz
14
Idle channel noise
NC
12.0
15
Power supply rejection ratio
at 2 Wire and Vout
16
Return loss
17
Transhybrid loss
18
Metallic to longitudinal balance
19
Leakage current, Tip or Ring to
analog ground
3
4
4
70
75
300
dBrnC
@2 Wire & VOUT
PSRR
25
dB
Ripple 0.1V,
1kHz on VCC
RL
18
dB
300-3400Hz
THL
18
21
dB
dB
300-3400Hz
500-2500Hz
dB
200-1000Hz
1000-4000Hz
60
40
ILA
70
70
5
mARMS
1000V ac
All AC Electrical Characteristics are over the Recommended Operating Conditions with VCC at +5.0V +5%, unless otherwise stated.
*Typical figures are at 25°C with nominal 5V supply and 25mA loop current unless otherwise stated. These figures are for design aid only.
1 For test circuit details please contact Silver Telecom.
2 These figures fpr+5V operation. For +3.3V operation, OD is typically 5% at +3dBm.
3 In the off-hook condition
4 Into a 600Ω impedance
© Silver Telecom 2002
Page 11
1
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
11.0 Mechanical Specification and Pin Assignation
11.1 Ag2120D – DIL Package
3.5mm
19.0
5.0 mm
1
7
Bottom
View
42.0m
54.0
Not To Scale
21
2.0mm
9
8
20
5.0 mm
11.00
2.0mm
V REF
LSC
F/R
NC
Zb
ZT2
GND
20 21
8 9
GND
ZT2
Zb
NC
F/R
LSC
V REF
8 9
20 21
V TR
RS
LC
V OUT
V IN
ZT1
V CC
V CC
ZT1
V IN
V OUT
LC
RS
V TR
1
Pin Names
Bottom View
7
7
Pin Names
Top View
1
Silver Tel ecom recommends t he use of 2m m sockets, especially on prototype and pre-production boards .
Recommended PCB hole diameter = 0.9 ± 0.05 mm
© Silver Telecom 2002
Page 12
Tip (A)
Ring (B)
Cathode
Anode
DMa
DMb
Gate
Gate
DMb
DMa
Anode
Cathode
Ring (B)
Tip (A)
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
11.1 Ag2120S – SIL Package
11.0mm
61mm
Ag2120S
1.6mm
12.0mm
1
2.8mm
0.6 ± 0.05
4.0
2.54 ± 0.25
0.6 ± 0.05
pin 1
12.7 ± 0.25
1.6mm
Ring (B)
Tip (A)
Cathode
Ag2120S
Anode
Gate
DMb
DMa
LC
VIN
VOUT
LSC
GND
VCC
F/R
ZB
ZT2
ZT1
RS
VTR
VREF
Silver Telecom recommends the use of 2.54mm sockets, especially on prototype and pre-production boards.
Recommended PCB hole diameter = 1.1 ± 0.05 mm
Information published in this data sheet is believed to be correct and accurate. Silver Telecom assumes no liability
for errors which may occur or for liability otherwise arising out of use of this information or infringement of patents
which may occur as a result of such use. No license is granted by this document under patents owned by Silver
Telecom or licensed from third parties by Silver Telecom. The products, their specifications and information
appearing in this document are subject to change by Silver Telecom without notice.
© Silver Telecom 2002
Page 13
Ag2120
V2.0 October 2002
Advance Data Sheet
F U L L Y F E A T U R E D P S T N IN T E R F A C E
12.0 Change Sheet
Date of
Change
8 Aug 2002
27 Sept 02
7 Oct 2002
Version
Number
V1.0
V1.1
V2.0
© Silver Telecom 2002
Description of Change
First issue.
Include VREF on DIL, and VREF and VTR on SIL
Fill in various TBA’s
Page 14
Change
implemented
CB
CB
SE