CMLMICRO CMX654

CMX654
V23 Transmit Modulator
D/654/3 June 1998
Advance Information
Features
Applications
• 1200bits/sec, V23 Transmit Modulator
• Caller ID generation for:
• 3.0V to 5.5V Supply: 1mA typical at 3V
• ISDN Terminal Adapters
• Zero Power Mode: 1µA typical
• Wireless Local Loop System
• 1200bits/sec Tx Data Retiming
• ISDN PABX Applications
• 3.58MHz Xtal/Clock Rate
• Pair-Gain Systems
• Meets ITU and ETSI Specifications
• Public Switched Telephone Networks
• 16 Pin SOIC and DIP Packages
• Trunk Exchanges
1.1
Brief Description
The CMX654 is a low power CMOS integrated circuit for the transmission of asynchronous 1200bits/sec data in
accordance with ITU, V.23 and ETSI specifications.
The device incorporates an optional Tx data retiming function. The device can be operated so that only the
mark or space tone is produced.
The CMX654 may be used in a wide range of telephone telemetry systems. With a low voltage requirement of
3.0V it is suitable for both portable terminal and line powered applications. A very low current 'sleep' mode (1µA
typ.) and operating current of 1mA typ. mean the device is ideal for line powered applications. A 3.58MHz
standard Xtal/Clock rate is required and the device operates from a 3.0 to 5.5V supply. Both SOIC (D4) and
Plastic DIL (P3) 16-pin package types are available.
 1998 Consumer Microcircuits Limited
V.23 Transmit Modulator
CMX654
CONTENTS
Section
Page
1.1 Brief Description ............................................................................................ 1
1.2 Block Diagram ................................................................................................ 3
1.3 Signal List ....................................................................................................... 3
1.4 External Components .................................................................................... 5
1.5 General Description ....................................................................................... 5
1.5.1 Xtal Osc and Clock Dividers............................................................. 5
1.5.2 Mode Control Logic .......................................................................... 6
1.5.3 FSK Modulator and Transmit Filter .................................................. 6
1.5.4 Tx Data Retiming.............................................................................. 7
1.6 Application Notes........................................................................................... 8
1.6.1 Line Interface.................................................................................... 8
1.7 Performance Specification ............................................................................ 9
1.7.1 Electrical Performance ..................................................................... 9
1.7.2 Packaging....................................................................................... 12
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V.23 Transmit Modulator
1.2
CMX654
Block Diagram
Figure 1 Block Diagram
1.3
Signal List
CMX654
D4/P3
Signal
Description
Pin No.
Name
Type
1
XTALN
O/P
The output of the on-chip Xtal oscillator inverter.
2
XTAL/CLOCK
I/P
The input to the on-chip Xtal oscillator inverter.
3
M0
I/P
A logic level input for setting the mode of the
device. See Section 1.5.2.
4
M1
I/P
A logic level input for setting the mode of the
device. See Section 1.5.2.
5
-
-
6
-
N/C
No connection, do not connect to this pin.
7
TXOP
O/P
The output of the FSK generator.
8
VSS
Power
The negative supply rail (ground).
 1998 Consumer Microcircuits Limited
Connect to VSS
3
D/654/3
V.23 Transmit Modulator
CMX654
CMX654
D4/P3
Signal
Description
Pin No.
Name
Type
9
VBIAS
O/P
10
-
-
11
TXD
I/P
A logic level input for either the raw input to the
FSK Modulator or data to be re-timed depending
on the state of the M0, M1 and CLK inputs. See
Section 1.5.3.
12
CLK
I/P
A logic level input which may be used to clock
data bits into the Tx FSK Data Retiming block.
13
-
N/C
No connection, do not connect to this pin.
14
-
N/C
No connection, do not connect to this pin.
15
RDYN
O/P
"Ready for Tx data transfer" output of the onchip data retiming circuit. This open-drain active
low output may be used as an Interrupt
Request/Wake-up input to the associated µC. An
external pull-up resistor should be connected
between this output and VDD.
16
VDD
Power
The positive supply rail. Levels and thresholds
within the device are proportional to this voltage.
Should be decoupled to VSS by a capacitor
mounted close to the device pins.
Notes: I/P =
O/P =
N/C =
Internally generated bias voltage, held at VDD/2
when the device is not in 'Zero-Power' mode.
Should be decoupled to VSS by a capacitor
mounted close to the device pins.
Connect to VDD.
Input
Output
No Connection
VDD and VBIAS decoupling are very important. It is recommended that the decoupling capacitors are placed so
that connections between them and the device pins are as short as practicable.
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1.4
CMX654
External Components
R1
X1
100kΩ
3.579545MHz
C1, C2
C3
C4
18pF
0.1µF
0.1µF
Resistors ±5%, capacitors ±10% unless otherwise stated.
Figure 2 Recommended External Components for Typical Application
1.5
General Description
1.5.1
Xtal Osc and Clock Dividers
Frequency and timing accuracy of the CMX654 is determined by a 3.579545MHz clock present at the
XTAL/CLOCK pin. This may be generated by the on-chip oscillator inverter using the external components C1,
C2 and X1 of Figure 2, or may be supplied from an external source to the XTAL/CLOCK input. If supplied from
an external source, C1, C2 and X1 should not be fitted.
The on-chip oscillator is turned off in the 'Zero-Power' mode.
If the clock is provided by an external source which is not always running, then the 'Zero-Power' mode must be
set when the clock is not available. Failure to observe this rule may cause a significant rise in the supply
current drawn by CMX654 as well as generating undefined states of the RDYN output.
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1.5.2
CMX654
Mode Control Logic
The CMX654's operating mode is determined by the logic levels applied to the M0 and M1 input pins:
M1
0
1
1
M0
1
0
1
Data Retime[1]
Tx
-
Tx Mode
1200bits/sec
off
'Zero-Power'
[1] If enabled.
In the 'Zero-Power' mode, power is removed from all internal circuitry. When leaving 'Zero-Power' mode there
must be a delay of 20ms before any Tx data is passed to the device to allow the bias level, filters and oscillator
to stabilise. On applying power to the device the mode must be set to 'ZP', i.e. M0=1, M1=1, until VDD has
stabilised.
1.5.3
FSK Modulator and Transmit Filter
These blocks produce a tone according to the TXD, M0 and M1 inputs as shown in the table below, assuming
data retiming is not being used:
M1
1
1
0
Note:
[1]
M0
1
0
1
TXD = '0'
TXD = '1'
0Hz[1]
2100Hz
1300Hz
TXOP held at approx VDD/2.
When modulated at the appropriate baud rates, the Transmit Filter and associated external components (see
Section 1.6.1) limit the FSK out of band energy sent to the line in accordance with Figure 3 assuming that the
signal on the line is at -6dBm or less.
Figure 3 Tx limits
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1.5.4
CMX654
Tx Data Retiming
The Data Retiming block, when enabled in 1200bits/sec transmit mode, requires the controlling µC to load 1 bit
at a time into the device by a pulse applied to the CLK input. The timing of this pulse is not critical and it may
easily be generated by a simple software loop. This facility removes the need for a UART in the µC without
incurring an excessive software overhead.
The Tx re-timing circuit consists of two 1-bit registers in series, the input of the first is connected to the TXD pin
and the output of the second feeds the FSK modulator. The second register is clocked by an internally
generated 1200Hz signal and when this occurs the CLK input is sampled. If the CLK input is high the TXD pin
directly controls the FSK modulator, if the CLK input is low the FSK modulator is controlled by the output of the
second register and the RDYN pin is pulled low. The RDYN output is reset by a high level on the CLK input pin.
A low to high change on the CLK input pin will latch the data from the TXD input pin into the first register ready
for transfer to the second register when the internal 1200Hz signal next occurs.
So to use the retiming option the CLK input should be held low until the RDYN output is pulled low. When the
RDYN pin goes low the next data bit should be applied at the TXD input and the CLK input pulled high and then
low within the time limits set out in Figure 6.
To ensure synchronisation between the controlling device and the CMX654 when entering Tx retiming mode,
the TXD pin must be held at a constant logic level from when the CLK pin is first pulled low to the end of loading
in the second retimed bit. Similarly when exiting Tx retiming mode the TXD pin should be held at the same
logic level as the last retimed bit for at least 2 bit times after the CLK line is pulled high.
If the data retiming facility is not required, the CLK input to the CMX654 should be kept high at all times. The
asynchronous data to the FSK modulator will then be connected directly to the TXD input pin. This is illustrated
in Figure 5.
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CMX654
1.6
Application Notes
1.6.1
Line Interface
The signals on the telephone line are not suitable for direct connection to the CMX654. A Line Interface circuit
is necessary to:
•
Provide high voltage and dc isolation
•
Provide the low impedance drive necessary for the line
•
Filter the Tx and Rx signals
R3
R6
See below
100kΩ
C5
C7
22µF (±20%)
330pF
Resistors ±1%, capacitors ±10% unless otherwise stated.
Figure 4 Line Interface Circuit
Notes:
•
•
•
The component(s) 'Z' between points B and C should match the line impedance.
Device A1 must be able to drive 'Z' and the line.
R3: The levels in dB (relative to a 775mV rms signal) at 'A', 'B' and 'C' in the line interface circuit are:
'A' = 20Log(VDD/5)
'B' = 'A' + 20Log(100kΩ/R3)
'C' = 'B' - 6
VDD
3.3V
5.0V
'A'
-3.6dB
0dB
 1998 Consumer Microcircuits Limited
R3
100kΩ
150kΩ
'B'
-3.6dB
-3.5dB
8
'C'
-9.6dB
-9.5dB
D/654/3
V.23 Transmit Modulator
1.7
Performance Specification
1.7.1
Electrical Performance
CMX654
Absolute Maximum Ratings
Exceeding these maximum ratings can result in damage to the device.
Min.
-0.3
-0.3
-30
-20
Max.
7.0
VDD + 0.3
+30
+20
Units
V
V
mA
mA
D4 Package
Total Allowable Power Dissipation at Tamb = 25°C
... Derating
Storage Temperature
Operating Temperature
Min.
Max.
800
13
+125
+85
Units
mW
mW/°C
°C
°C
P3 Package
Total Allowable Power Dissipation at Tamb = 25°C
... Derating
Storage Temperature
Operating Temperature
Min.
Max.
800
13
+125
+85
Units
mW
mW/°C
°C
°C
Max.
5.5
+85
3.583125
Units
V
°C
MHz
Supply (VDD - VSS)
Voltage on any pin to VSS
Current into or out of VDD and VSS pins
Current into or out of any other pin
-55
-40
-55
-40
Operating Limits
Correct operation of the device outside these limits is not implied.
Notes
Supply (VDD - VSS)
Operating Temperature
Xtal Frequency
Notes:
1
Min.
3.0
-40
3.575965
1. A Xtal frequency of 3.579545MHz ±0.1% is required for correct FSK operation.
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V.23 Transmit Modulator
CMX654
Operating Characteristics
For the following conditions unless otherwise specified:
VDD = 3.0V at Tamb = 25°C and VDD = 3.3V to 5.5V at Tamb = -40 to +85°C,
Xtal Frequency = 3.579545MHz ± 0.1%
0dBV corresponds to 1.0Vrms
0dBm corresponds to 775mVrms into 600Ω.
DC Parameters
IDD (M0='1', M1='1')
IDD (M0 or M1='0') at VDD = 3.0V
IDD (M0 or M1='0') at VDD= 5.0V
Notes
Min.
Typ.
Max.
Units
1, 2
1
1
-
1
1.0
1.7
1.25
2.5
µA
mA
mA
70%
-1.0
-
30%
+1.0
VDD
VDD
µA
VDD-0.4
-
-
0.4
1.0
V
V
µA
1194
-
1206
Baud
-1.0
-2.0
0
0
+1.0
+2.0
dB
dB
0
1297
2097
1200
-
1212
1303
2103
Baud
Hz
Hz
100
100
-
-
ns
ns
Logic '1' Input Level
Logic '0' Input Level
Logic Input Leakage Current (Vin = 0 to VDD),
Excluding XTAL/CLOCK Input
Output Logic '1' Level (lOH = 360µA)
Output Logic '0' Level (lOL = 360µA)
RDYN O/P 'off' State Current (Vout = VDD)
FSK Retiming
Tx Data Rate
FSK Modulator
TXOP Level
Twist (Mark Level WRT Space Level)
3
Tx 1200bits/sec (M1='0', M0='1').
Bit Rate
Mark (Logical 1) Frequency
Space (Logical 0) Frequency
XTAL/CLOCK Input
'High' Pulse Width
'Low' Pulse Width
Notes:
4
4
1. At 25°C, not including any current drawn from the CMX654 pins by external circuitry other than
X1, C1 and C2.
2. TXD and CLK inputs at VSS, M0 and M1 inputs at VDD.
3. Relative to 775mVrms at VDD= 5.0V for load resistances greater than 40kΩ.
4. Timing for an external input to the XTAL/CLOCK pin.
Data and Mode Timing
 1998 Consumer Microcircuits Limited
Min.
10
Typ.
Max.
Units
D/654/3
V.23 Transmit Modulator
CMX654
Delay to reliable data at TXOP after ZP to Tx mode change
Data Retiming Disabled (reference Figure 5)
Tx Data Delay (TXD to TXOP)
Data Retiming Enabled (reference Figure 6)
Td = Internal CMX654 delay
Tchi = CLK High time
Tr = RDY low to CLK going low
Ts = Data Set-up time
Th = Data Hold time
-
-
20.0
ms
-
0.1
-
ms
1.0
1.0
1.0
-
1.0
800
-
µs
µs
µs
µs
µs
Note: M0 and M1 are preset and stable. FLO and FHI are the two FSK signalling frequencies.
Figure 5 TXD to TXOP Delay Time
Figure 6 FSK Operation with Tx Data Retiming
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1.7.2
CMX654
Packaging
Figure 7 16-pin SOIC (D4) Mechanical Outline: Order as part no. CMX654D4
Figure 8 16-pin DIL (P3) Mechanical Outline: Order as part no. CMX654P3
Handling precautions: This product includes input protection, however, precautions should be taken to prevent device damage
from electro-static discharge. CML does not assume any responsibility for the use of any circuitry described. No IPR or circuit
patent licences are implied. CML reserves the right at any time without notice to change the said circuitry and this product
specification. CML has a policy of testing every product shipped using calibrated test equipment to ensure compliance with this
product specification. Specific testing of all circuit parameters is not necessarily performed.
1 WHEATON ROAD
WITHAM - ESSEX
CM8 3TD - ENGLAND
Telephone: +44 1376 513833
Telefax:
+44 1376 518247
e-mail:
[email protected]
http://www.cmlmicro.co.uk
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