ETC XE0068DT

XE0068DT
November 2004
FCC Registered DAA Module with DTMF Transmitter/Decoder
Description
Features
The XE0068DT is an FCC registered telephone line
interface which includes a DTMF transmitter, DTMF
decoder and call progress monitor.
*
Small Size - 2.28" x 1.08" x 0.42"
*
User Transferrable FCC Part 68 Registration
*
Integrated Ring Detection Circuit.
FCC rules limit the signal level that equipment can place
on the telephone line. The XE0068DT incorporates an
Automatic Gain Control (AGC) circuit to control the
output signal level. The AGC optomizes the output
levele over a wide variety of input levels without
introducing signal distortion.
*
Solid-State Hookswitch Control
*
Provides 1500 Volt Isolation between the telephone line and all other circuits
*
Includes supplemental surge protection to survive
both FCC Type A and Type B surges.
FCC rules also dictate a 2-second delay at the start of
each call. This billing delay prevents information
transmission during the billing period. The XE0068DT
includes this billing delay.
*
Integral 2-Second Billing Delay (required for FCC
Part 68 registration)
*
Automatic Gain Control optimizes transmit level
for most any input level.
*
Integral DTMF transmitter and decoder
*
Call Progress Monitoring
The integrated DTMF transceiver, call progress monitor
and FCC registration make the XE0068DT ideal for
network signalling applications.
XE0068DT Block Diagram
D0
D1
D2
D3
ESt
/RD
/WR
/CS
RS0
CP
St/GT
RCVR
XE0068DT Pin Configuration
VCC o 1
DTMF
Transmitter
& Receiver
Line
Transformer
Hook Switch
2-4 Wire
Convertor
26 o Tip
D3
o 2
Tip
D2
o 3
Ring
D1
o 4
D0
o 5
22 o /RI
/WR
o 6
21 o OH
/RD o 7
20 o N/C
/CS o 8
19 o RCVR
RS0
o 9
18 o XMIT
N/C
o 10
17 o St/GT
N/C
o 11
16 o ESt
N/C
o 12
15 o CP
D/V
o 13
14 o GND
OH
Ring
Detect
/RI
24 o Ring
XMIT
AGC
D/V
XECOM
Billing Delay
Timer
(1)
XE0068DT
XE0068DT Mechanical Specifications
Dim
A
B
C
D
E
F
G
H
J
K
Inches
Min
Max
2.270 2.290
1.065 1.095
0.420 0.430
0.890 0.910
1.190 1.210
0.125 0.200
0.080 0.100
0.530 0.550
0.090 0.110
0.020 0.025
Metric(MM)
Min
Max
57.66 58.17
27.05 27.81
12.32 13.08
22.61 23.11
30.23 30.73
3.18
5.08
2.03
2.54
13.46 13.97
2.29
2.79
0.51
0.64
B
Denotes
Pin 1
K F
C
D
G
H
J
E
H
XE0068DT ABSOLUTE MAXIMUM RATINGS
Storage Temperature
Operating Temperature Range *
Maximum Solder Temperature
Maximum Time Above Eutectic (183O C)
Preheat Dwell Time
-25O C to +85O C
0O C to +70O C
220O C
90 seconds
120 to 180 seconds
* The XE0068DT can be ordered with an Operating Temperature of -40O C to +85O C at extra cost.
Specify Model Number XE0068DT-ITR.
XECOM
(2)
XE0068DT
XE0068DT Typical Connection Diagram
Recommended Parts
Designation
Description
C1, C2
470 picoFarad, 3000 Volts (Sprague part Number 30GA-T47)
FB1, FB2
Ferrite Beads (TDK part Number CB30-453215B)
XE0068DT Call Progress Detection Circuit
+5 Volts
XE0068DT
0.1 uFd
10K
St/GT
10K
10K
LM339
374K
+
ESt
10K
CP2
150K
1N4148
1N4148
0.15 uFd
+5 Volts
1M
To IRQ
XECOM
(3)
XE0068DT
XE0068DT Pin Descriptions
PIN
1
2-5
NAME
I/0
DESCRIPTION
VCC
---
+5 Volts
D0-D3
I/O
These signals represent the 4-bit data bus which carries the DTMF information per
the chart below.
6
/WR
I
Read and Write determine the direction of DTMF data. A low on /WR with /RD
high allows the processor to write to the XE0068DT.
7
/RD
I
Read and Write determine the direction of DTMF data. A low on /RD with /WR
high allows the processor to read from the XE0068DT.
8
/CS
I
A low on Chip Select, selects the XE0068 DTMF data bus.
9
RS0
I
This input selects the register to be used. A low selects the data register and a high
slects the status or control registers.
13
D/V
I
A low on Voice/Data selects a transmit level of 0 dBm for voice or DTMF; a high
sets a -9 dbm transmit level for data transfer.
14
GND
---
Ground
15
CP
O
In DTMF mode CP acts as an interrupt. CP goes low when a valid DTMF Tone is
transmitted or received. In Call Progress Mode CP provides a square wave representation of the call progress signal on the phone line.
16
ESt
O
Goes high to indicate that a valid tone pair has been detected. A momentary loss of
signal causes ESt to go low.
17
St/GT
I/O
As an input, St/GT latches the DTMF code into the Receive Data Register when the
threshold voltage is reached. As an output, St/GT goes high to disable the guard
timer after the threshold voltage is reached.
18
XMIT
I
Analog input signal to the line interface, input impedance on XMIT is typically 10
Kohms at 1800 Hz. Signals from -15 to +5 dBm will be placed on the line at 10dBm + 1 dBm.
19
RCVR
O
Analog output signal from the 2-4 wire converter, the output impedence of RCVR
is typically 10 ohms at 1800 hz.
21
OH
I
Hookswitch control. A high closes the internal relay to connect the equipment to
the phone line.
22
/RI
O
Ring Indicate, output, active low, TTL, indicates the modem is receiving a ring signal.
24
Ring
---
Ring connection to the phone line (RJ11 Pin 4).
26
Tip
---
Tip Connection to the phone line (RJ11 Pin 3)
XECOM
(4)
XE0068DT
XE0068DT Register Selection
Table 1 below shows the combination of RS0, /WR, and /RD to select each register.
Table 1
RS0
/WR
/RD
Function
0
0
1
Write to Transmit Data Register
0
1
0
Read from Receive Data Register
1
0
1
Write to Control Register A or B
1
1
0
Read from Status Register
DTMF Codes
Table 2 below shows the 4-bit codes applied to D0-D3 to represent each DTMF Digit.
Table 1
DTMF Digit
1
2
3
4
5
6
7
8
9
0
*
#
A
B
C
D
D0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
D1
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
D2
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
D3
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
XE0068DT Status Register
Table 3 below defines the bit codess which can be read from the status register.
Table 3
XECOM
Bit
Indicator
Status Set
0
IRQ
An interrupt has occurred
Interrupt inactive, Cleared
after Status Register Read
1
Transmit Data Register
Empty
Transmitter Ready for
New Data
Status has been read or
is in non-burst mode
2
Receive Data Register
Full
Receive Data Register
contains valid data
Status Register has been
Read
3
Delayed Steering
Set upon detection
of the absence of a
DTMF signal
Cleared upon detection of
a valid DTMF signal
(5)
Status Cleared
XE0068DT
XE0068DT Control Register A
Table 4 below defines the XE0068DT operations set by the bits in Control Register A.
Table 4
Bit
Signal
Function
0
TOUT
Tone Output Control: This bit controls the tone transmit functions. A
high enables the tone output; a low turns tone output off.
1
CP/DTMF
Call Progress or DTMF Mode: A logic high enables the XE0068DT to
detect call progress tones. A low enables DTMF send and receive
mode. In call progress mode a square wave representation of the
incoming signal will be presented on the CP output, IRQ enabled.
DTMF tones cannot be decoded in call progress mode.
2
IRQ
Interrupt Enable: A logic high enables the interrupt function. When
IRQ enabled and DTMF mode is selcted, the CP output will go low
when either a valid DTMF signal is received or the transmitter is ready
for more data (burst mode).
3
RSEL
Register Select. A logic high on bit 3 sets the XE0068DT to select
Control Register B for the next write cycle. After writing to Control
Register B, the next control register write cycle will be directed to
Control Register A.
XE0068DT Control Register B
Table 5 below defines the XE0068DT operations set by the bits in Control Register B.
Table 4
XECOM
Bit
Signal
Function
0
Burst
Burst Mode: A logic low enables burst mode. When Burst Mode is
activated, DTMF tones can be transmitted by writing the correct code to
the Transmit Register. The XE0068DT the transmits a tone burst of 51
milliseconds on and 51 milliseconds off. In call progress mode the
duration of the tone burst and pause after the tone burst are doubled to
102 milliseconds. When not in Burst Mode the XE0068DT transmits
the tone as long as TOUT, Status Register A, is active.
1
Test
Test Mode: A logic high enables the Test Mode in the XE0068DT.
When the Test and DTMF modes are selected, the signal on CP reflects
the state of the delayed steering bit of the status register.
2
S/D
Single or Dual Tone Generation: A logic high sets the XE0068DT to
generate a single tone rather than transmiting two tones.
3
C/R
Column or Row: Control Register B bit 3 determines if the row or
column tone is transmitted when single tone operation is selected. A
logic high selects the row tone output
(6)
XE0068DT
XE0068DT Operational Modes
Burst Mode
Burst mode is used to transmit DTMF signals of specific duration. The XE0068DT transmitter
sends symmetric tone bursts which are on for 51 milliseconds and off for 51 milliseconds. This
is a standard interval for central office switching. When call progress mode is also selected extended bursts of 102 milliseconds can be sent.
Single Tone Generation The XE0068DT may be used to generate single tones as well as tone pairs. Control
Register B regulates single tone transmission.
Call Progress Mode Call Progress Mode allows detection of the various tones used to identify the status of a call.
They include Ring Back, Busy Tone Dial Tone, etc. In call Progress Mode the XE0068DT
provides a square wave representation of these signals on the CP pin. The system host can decode the incoming call progress tones.
Initialization Procedure
Description
Read Status Register
Control Lines
RS0
WR
RD
1
1
0
D3
X
Data Bits
D2
X
D1
X
D0
X
Write to Control Register
1
0
1
0
0
0
0
Write to Control Register
1
0
1
0
0
0
0
Write to Control Register
1
0
1
1
0
0
0
Write to Control Register
1
0
1
0
0
0
0
Write to Control Register
1
0
1
0
0
0
0
Read Status Register
1
1
0
X
X
X
X
* Performs a software reset on the XE0068DT
Call Progress Tone Definitions
The chart below shows the signal characteristics for the most common call progress tones in the United States.
Check the frequency and cadence on the CP line to identify signals in Call Progress mode.
Tone
Frequency (Hz)
Cadence
Level
Dial Tone
350 + 400
Steady
-13 dBm
Ringback
440 + 480
2 sec. On
4 sec. Off
-19 dBm
Busy Tone
480 + 620
.5 sec. On
.5 sec Off
-24 dBm
Indicates the called line has been reached but is
currently in use.
Reorder
480 + 620
.25 sec. On
.25 sec Off
-24 dBm
Indicates the switching path is busy
Partial Dial Tone
480
Steady
-17 dBm
Notifies the calling party that dialing has not begun
in the allotted time or that not enough digits have
been dialed.
XECOM
(7)
Description
Indicates the network is ready to receive dialing
signals
Indicates the called line is ringing
XE0068DT
XE0068DT Electrical Specifications (Vcc = +5 Volts + 5%, Ta = 70 deg C.)
Parameter
Conditions
Min
Power Supply Current
Ring Indicate Active
Coupler Match
Output impedance
531
AGC Input Range
Maintaining steady output level
AGC Output Level
Typ
Max
20
mA
541
ohms
-40
0
dBm
D/V held high
-20
-9
dBm
AGC Output Level
D/V held low
-11
0
dBm
Billing Delay
OH activated
2.0
Transhybrid Loss
at 1000 Hz
Receive Loss
at 1000 Hz
-1.0
Ring Detect
Sensitivity
Min. AC voltage between Tip & Ring
Type B ringer
38
Ring Indicate
Output Voltage
Ring Voltage present on Tip & Ring
Loop Current Switch
ON: (off-hook)
Control Voltage
OFF: (on-hook)
0.2
0.5
volts
Loop Current Switch
Control Current
Off-hook
0.1
2.0
mA
Loop Current
Off-Hook current draw from
Telephone Line
20
100
mA
Data Bus,
Low Level Input Voltage
0.8
volts
Receive Sensitivity
536
Units
2.3
seconds
-34
dBm
0
0
XECOM
0.5
3.0
volts
volts
High Level Input Voltage
2.0
volts
DTMF tones
-37
dBm
Call Progress Tones
-30
dBm
Tone Duration to Detect
Tone Frequencies
dB
vrms
0.2
2.0
1.0
40
DTMF Transmission,
697
770
852
941
1209
1336
(8)
msec
hz
XE0068DT
XE0068DT Read/Write Clock Pulse Timing
tcy c
tr
tf
tpwl
RD/WR
Signal
t
t
t
Definition
tpwh
Min
Typ
Max
Units
tr
Read/Write Rise Time
20
nanoseconds
t
Read/Write Fall Time
20
nanoseconds
f
cyc
Read/Write Cycle period
250
nanoseconds
pwh
Read/Write pulse width high
100
nanoseconds
pwl
Read/Write pulse width low
XECOM
150
(9)
nanoseconds
XE0068DT
XE0068DT Read Timing
tpwl
RD
tpwh
tas
tah
CS/RS0
tdhr
tddr
Data Bus
Signal
Definition
Min
Typ
Max
Units
tas
Address Setup Time
23
nanoseconds
t
Address Hold Time
26
nanoseconds
pwl
Read Pulse Width Low
150
nanoseconds
pwh
Read Pulse Width High
ddr
Read to Valid Data
dhr
Data Hold Time (Read)
t
t
t
t
ah
XECOM
100
nanoseconds
100
22
(10)
nanoseconds
nanoseconds
XE0068DT
XE0068DT Write Timing
tpwl
WR
tpwh
tas
tah
CS/RS0
tdsw
tdhw
Data Bus
Signal
t
t
t
t
Definition
Min
Typ
Max
Units
tas
Address Setup Time
23
nanoseconds
t
Address Hold Time
26
nanoseconds
pwl
Write Pulse Width Low
150
nanoseconds
pwh
Write Pulse Width High
dsw
Data Setup Time (Write)
45
nanoseconds
dhw
Data Hold Time (Write)
10
nanoseconds
ah
XECOM
100
(11)
nanoseconds
XE0068DT
FCC Information
This product complies with Part 68 of the FCC Rules and Regulations. With each device shipped,there is a label which
contains, among other information, the FCC Registration Number and Ringer Equivalence Number (REN) for this
product. You must, upon request, give this information to your telephone company.
Mounting this device in the final assembly must be made in such a manner as to preserve the high voltage protection
between the TIP/RING connection and the rest of the system. Typically, this may be accomplished by maintaining a
minimum spacing .100 mils between the TIP/RING trace to the RJ-11C Jack and low voltage portion of the system. No
additional circuitry may be attached between TIP/RING and the telephone line connection unless specifically allowed in
the rules.
The REN is useful to determine the quantity of devices you may connect to the telephone line and still have all of these
devices ring when the number is called. In most, but not all areas, the sum of the RENs of all devices connected to one
line should not exceed five (5.0). To be certain of the number of devices you may connect to the line, as determined by
the REN, you should contact the local telephone company to determine the maximum REN for your calling area.
If your system causes harm to the telephone network, the telephone company may discontinue service temporarily. If
possible, they will notify you in advance. If advance notification is not practical, you will be notified as soon as possible.
Your telephone company may make changes in its facilities, equipment, operations or procedures that could affect
proper functioning of your equipment. If they do, you will be notified in advance to give you an opportunity to maintain
uninterrupted service.
If you experience trouble with the device, please contact XECOM an (408) 945-6640 for information on obtaining
service or repairs. The telephone company may ask you to disconnect this device from the network until the problem has
been corrected or until you are sure that the device is not malfunctioning.
There are no repairs that can be made by the customer to the XE0068.
The device may not be used on coin service lines provided by the telephone company (this does not apply to private coin
telephone applications which use standard telephone lines). Connection to party lines is subject to state tariffs.
XECOM
FCC Registration Number
DWEUSA-75283-DP-W
Ringer Equivalence
0.5B
Telephone Jack
RJ11C
(12)
XE0068DT
Terms of Sale
Devices sold by XECOM are covered by the warranty provisions appearing in its Terms of Sale only. XECOM
makes no warranty, express, statutory, implied, or by description regarding the information set forth herein, or
regarding the freedom of the described devices from patent infringement. XECOM makes no warranty of
merchantability or fitness for any purposes. XECOM reserves the right to discontinue production and change
specifications and prices at any time and without notice. This product is intended for use in normal commercial
applications. Applications requiring extended temperature range, unusual environmental requirements, or high
reliability applications, such as military, medical life-support or life-sustaining equipment, are specifically not
recommended without additional processing and authorization by XECOM for such application.
Xecom assumes no responsibility for the use of any circuitry other than circuitry embodied in a Xecom
Life Support Policy
Xecom's products are not authorized for use as Critical Components in Life Support Devices or Systems.
Life Support Devices or Systems are devices or systems which, (a) are intended for surgical implant into the body,
or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions provided in the labeling, can be reasonably expected to result in significant injury to the user.
A Critical Component is any component of a life support device or system whose failure to perform can be reasonably expected to cause failure of the life support device or system, or to affect its safety or effectiveness.
Copyright, Xecom © 2002
While Xecom, Inc. has made every effort to ensure that the information presented here is accurate, Xecom will not
be liable for any damages arising from errors or omission of fact. Xecom reserves the right to modify specifications
and/or prices without notice. Product mentioned herein are used for identification purposes only and may be trademarks and/or registered trademarks of their respective companies.
Xecom Incorporated
374 Turquoise Street, Milpitas, CA 95035
Ph:408-945-6640 Fax:408-942-1346
Email: [email protected]
XECOM
(13)
XE0068DT
WWW.ALLDATASHEET.COM
Copyright © Each Manufacturing Company.
All Datasheets cannot be modified without permission.
This datasheet has been download from :
www.AllDataSheet.com
100% Free DataSheet Search Site.
Free Download.
No Register.
Fast Search System.
www.AllDataSheet.com