CML EV6000 Cml semiconductor product Datasheet

CML Semiconductor Products
Evaluation Kit User Manual
EV6000
UM6000/3 November 1996
1.0
Features
•
For use with EV6020 and
Advance Information
•
Diagnostic Firmware/Software
•
On-Board PIC Programming with
EV6040
•
Executes Applications Software
for FX602, FX604 and FX614
Serial Interface and PC Software
•
Serial (RS232) Interface to a PC
•
Single Power Supply Operation
•
Socketed PIC 16-Series µC
•
On-Board Supply Regulator
1.1
Brief Description
This board is designed for use with the CML EV6020 and EV6040 Evaluation Kits, which are in turn
used for evaluation of the FX602, FX604 and FX614 products. The EV6000 Evaluation Kit comprises
one board containing a socket for a UV-erasable PIC µC which the user may program and control via
the RS232 serial interface. With the aid of suitable applications software, the user can demonstrate the
use of the FX602, FX604 or FX614 in telecommunications applications. The EV6000 board may be
powered from a single 8 - 35V dc power supply; an on-board regulator sets 3.3V or 5.0V operation.
The PIC µC may be driven from an external clock, or from its own crystal oscillator. Test point hooks
provide access to programming voltages. Space has been left for the user to ZIF-socket the PIC µC, if
required. Interconnecting cables are provided for an RS232 link to a PC and for 20-way flat cable
connections to other CML evaluation kits or other parts of a user's system.
This EV6000 Evaluation Kit is designed to be a general purpose product which may be used to support
other CML evaluation kits in the future. Applications software is being regularly updated and users
should contact CML for further details.
 1996 Consumer Microcircuits Limited
Evaluation Kit User Manual for PIC Board
EV6000
CONTENTS
Section
Page
1.0 Features.......................................................................................................... 1
1.1 Brief Description............................................................................................ 1
1.2 Preliminary Information ................................................................................ 4
1.2.1 Laboratory Equipment ..................................................................... 4
1.2.2 Handling Precautions ...................................................................... 4
1.3 Quick Start...................................................................................................... 5
1.3.1 Setting-Up........................................................................................ 5
1.3.2 Operation......................................................................................... 5
1.4 Signal Lists..................................................................................................... 6
1.5 Circuit Schematics and Board Layouts....................................................... 8
1.6 Detailed Description .................................................................................... 10
1.6.1 Hardware Description .................................................................... 10
1.6.2 Software Description ..................................................................... 11
1.7 Performance Specification ......................................................................... 17
1.7.1 Electrical Performance .................................................................. 17
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EV6000
Figure 1 Block Diagram
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1.2
Preliminary Information
1.2.1
Laboratory Equipment
EV6000
The following laboratory equipment is needed to use this evaluation kit:
1.2.1.1 8 - 35V DC Power Supply
(which can also be used to supply the programming voltage, if set to 13V).
1.2.1.2 Either an IBM compatible PC; 20MHz '386 or better, running Microsoft Windows 3.11 / '95 / NT with a
terminal emulation program, having a configuration of 8 data bits, no parity, 1 stop bit and 19,200 baud
with hardware handshake but without CR -> CR/LF conversion.
The following laboratory equipment is needed to re-program the PIC µC in this evaluation kit:
1.2.1.3 If the evaluation kit is to be programmed via the serial port (J3), then a PC running DOS, or a DOS
window under Windows 3.11 or '95, will need to be used with the PIC programming software supplied
(PICPROGA.EXE).
1.2.1.4 As an alternative to on-board programming, a PIC 16-series Development System (available from
Arizona Microchip Technology), or a suitable PIC programmer, together with PIC development
software, may be preferred.
1.2.1.5 MPASM assembler or MPLAB software is required for re-assembling the source code. These tools are
available from Arizona Microchip Technology.
1.2.2
Handling Precautions
Like most evaluation kits, this product is designed for use in office and laboratory environments. The
following practices will help ensure its proper operation.
1.2.2.1 Static Protection
This product uses low power CMOS circuits which may be damaged by electrostatic discharge.
Partially damaged circuits may function erroneously, leading to misleading results. Observe ESD
precautions at all times when handling this product.
1.2.2.2 Contents - Unpacking
Please ensure that you have received all of the items listed on the separate information sheet
(EK6000) and notify CML within 7 working days if the delivery is incomplete.
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1.3
EV6000
Quick Start
This section provides instructions for users who wish to experiment immediately with the evaluation kit.
A fuller description of the kit and its use appears later in this document.
1.3.1
Setting-Up
This evaluation kit comprises a single board containing a socket for a 40-pin DIL PIC (or compatible)
general-purpose µC, which the user may re-program with his applications software.
THE EV6000 COMES WITH A PRE-CONFIGURED PIC 16C74AJW OR EQUIVALENT,
CONTAINING DIAGNOSTIC FIRMWARE AND APPLICATION SPECIFIC DEMONSTRATION
FIRMWARE FOR THE EV6020 AND EV6040 EVALUATION KITS. THE EV6000 IS SET FOR
OPERATION AT 5.0V.
The kit also contains two 20-way flat cables (one of which is needed for connection to an EV6020 or
EV6040 CML Evaluation Kit) and a 9-way D-type RS232 cable (for connection to a PC), as shown in
the Block Diagram of Figure 1. No board adjustments are required by the user.
BEFORE APPLYING POWER, PLEASE CHECK THE FOLLOWING:
ENSURE THE PIC µC IS PLUGGED INTO SOCKET U2 ON THE EV6000 BOARD.
CONNECT THE 9-WAY RS232 CABLE BETWEEN SOCKET J3 AND THE SERIAL PORT OF A PC.
FOR USE WITH EV6020 OR EV6040 EVALUATION KITS, CONNECT A 20-WAY FLAT CABLE
BETWEEN SOCKETS J1 ON THE EV6000 AND EV6020 OR EV6040 BOARDS.
The EV6000 board has connections for a single 8 - 35V dc power supply. Only one board (as shown in
Figure 1) needs to be connected as power is supplied to the other board over the flat cable. Each
board has its own power supply regulator chip, with a jumper to select 3.3V or 5.0V (default) operation.
MAKE SURE BOTH BOARDS HAVE THIS JUMPER SET TO THE SAME VOLTAGE. DAMAGE
MAY RESULT IF THIS STEP IS NOT OBSERVED. DO NOT OPERATE EITHER BOARD WITH ITS
VOLTAGE SELECTION JUMPER REMOVED.
Ensure that the component value jumpers on the EV6020 or EV6040 evaluation board are correctly set
for 3.3V or 5.0V operation. Please refer to Section 1.6.1.1 for further details.
Connect any other equipment as shown in Figure 1.
Ensure the PC terminal emulator program is set up as detailed in section 1.2.1.2.
1.3.2
Operation
The EV6000 kit is designed to control the operation of an EV6020 or EV6040 Evaluation Kit. The
firmware which is pre-configured into the PIC µC has both diagnostic and application specific
commands. Refer to section 1.6.2.2 for the diagnostics and section 1.6.2.3 for the applications.
The PICPROGA.EXE program can be used to re-program the PIC µC firmware, if required.
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1.4
EV6000
Signal Lists
CONNECTOR PINOUT - µC BOARD
Connector
Ref.
Connector
Pin No.
Signal
Name
Signal
Type
J1
1, 2
VIN
Power
+ve power from external power supply.
3, 4
VSS
Power
0V power from external power supply.
5
RA0
BI
PIC µC Bidirectional Port, pin 2
6
RA1
BI
PIC µC Bidirectional Port, pin 3
7
RA2
BI
PIC µC Bidirectional Port, pin 4
8
RA3
BI
PIC µC Bidirectional Port, pin 5
9
RB0
BI
PIC µC Bidirectional Port, pin 33
10
RB1
BI
PIC µC Bidirectional Port, pin 34
11
RB2
BI
PIC µC Bidirectional Port, pin 35
12
RB3
BI
PIC µC Bidirectional Port, pin 36
13
RB4
BI
PIC µC Bidirectional Port, pin 37
14
RB5
BI
PIC µC Bidirectional Port, pin 38
15
RB6
BI
PIC µC Bidirectional Port, pin 39
16
RB7
BI
PIC µC Bidirectional Port, pin 40
17
RC0
BI
PIC µC Bidirectional Port, pin 15
18
RC1
BI
PIC µC Bidirectional Port, pin 16
19
RC2
BI
PIC µC Bidirectional Port, pin 17
20
RC3
BI
PIC µC Bidirectional Port, pin 18
1
RA4
BI
PIC µC Bidirectional Port, pin 6
2
RA5
BI
PIC µC Bidirectional Port, pin 7
3
RD0
BI
PIC µC Bidirectional Port, pin 19
4
RD1
BI
PIC µC Bidirectional Port, pin 20
5
RD2
BI
PIC µC Bidirectional Port, pin 21
6
RD3
BI
PIC µC Bidirectional Port, pin 22
7
RD4
BI
PIC µC Bidirectional Port, pin 27
8
RD5
BI
PIC µC Bidirectional Port, pin 28
9
RD6
BI
PIC µC Bidirectional Port, pin 29
10
RD7
BI
PIC µC Bidirectional Port, pin 30
11
RE0
BI
PIC µC Bidirectional Port, pin 8
12
RE1
BI
PIC µC Bidirectional Port, pin 9
13
RE2
BI
PIC µC Bidirectional Port, pin 10
J2
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Description
UM6000/3
Evaluation Kit User Manual for PIC Board
EV6000
CONNECTOR PINOUT - µC BOARD
Connector
Ref.
J3
J4
Connector
Pin No.
Signal
Name
Signal
Type
14 to 18 inc
-
-
19, 20
VSS
Power
0V power from external power supply.
1
DCD
Output
PC connection (linked to DTR).
2
RXD
Output
PC connection to screen.
3
TXD
Input
PC connection to keyboard.
4
DTR
Input
PC connection.
5
VSS
Power
0V common connection to PC.
6
DSR
Output
PC connection (linked to DTR).
7
RTS
Input
PC 'RTS' connection.
8
CTS
Output
PC 'CTS' connection.
9
-
-
1
VSS
Power
0V power from external power supply.
2
VIN
Power
+ve power from external power supply.
Description
Not used. No connection needed.
Not used. No connection needed.
TEST POINTS - µC BOARD
Test Point
Ref.
Default
Measurement
TP1
8 - 35V
VIN connection.
TP2
3.3V or 5.0V
VDD connection.
TP3
0V
VSS connection.
TP4
0V
VSS connection.
TP5
3.3V or 5.0V
Description
VPP connection (13.0V in programming mode).
JUMPERS - µC BOARD
Link
Ref.
Positions
Default
Position
JP1
1-2 or 2-3
2-3
Sets VDD = 3.3V (1-2) or VDD = 5.0V (2-3)
JP2_1,2
1-2
1-2
Disconnect to supply external clock to JP2_1 (1).
JP3
1-2
1-2
Connects TXD to RS232 converter in normal use.
JP4 to JP7
1-2
n/f
Only fitted (and JP3 removed) in Programming Mode.
SW1
-
o/c
Push to reset switch. (Default = o/c = not reset).
Notes:
I/P = Input
 1996 Consumer Microcircuits Limited
Description
O/P = Output
7
BI = Bidirectional
UM6000/3
Evaluation Kit User Manual for PIC Board
1.5
EV6000
Circuit Schematics and Board Layouts
Figure 2 µC Board - Circuit Schematic
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D4
R1
R6
TP1 TP5
VIN
VPP
J1
EV6000
VSS
VIN
R3_2 R2_2
SW1
U1
JP1
1
C9
1
RD1
VDD
JP5-7
VSS
R4
D3
X1
U2
R5
RS2
C11
PIC16C74
RS1
D2
R2_1 R3_1
D1
TP2
C10 TP4
1
RD2
C1
C2
R8
J2
R7
JP2
1
C3
RD3
xclk
RD4
J3
JP3
JP4
C4
C5
MAX3232
C12
C6
C7
RS3
C8
RS4
U3
board mod
VSS
TP3
1
2
3
4
5
Figure 3 µC Board - Layout
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1.6
Detailed Description
1.6.1
Hardware Description
EV6000
1.6.1.1 Operating Voltage
The selection of operating voltage (VDD = 3.3V or 5.0V) by jumper JP1 affects the choice of
component values around the evaluation device on the EV6020 or EV6040 Evaluation Kit. Care should
be taken to ensure that JP1 is set the same way as jumpers JP1, JP3, JP4, JP5, JP6 and JP7 on the
EV6020 or EV6040 Evaluation Kit.
1.6.1.2 Clock/Oscillator
A 4MHz xtal is the highest frequency xtal that may be used with a PIC16LC74(A)JW at
VDD = 3.3V. The PIC 16C74(A)JW has a similar limitation and is fitted for availability reasons.
Although rated at 5.0V, it has been found to work successfully at 3.3V. Two jumpers JP2, which are
normally fitted, select an on-board 4MHz xtal. An external 3.58MHz clock, for example, may be
supplied to JP2_1 (1) once the jumpers have been removed, taking care to adjust any firmware timing
routines accordingly.
1.6.1.3 RS232 Interface
The RS232 interface (connector J3) has its communications protocol determined by the µC firmware.
A suggested configuration is 8 data bits, no parity, 1 stop bit and 19,200 baud with hardware
handshake but without CR -> CR/LF conversion. Linefeeds are provided by the EV6000 firmware.
The firmware supplied in the PIC µC assumes this configuration.
1.6.1.4 Programming Mode
TO ENTER PROGRAMMING MODE
(a)
(b)
(c)
(d)
(e)
(f)
(g)
Remove power from board
Disconnect the EV6000 from other Evaluation Kits
Ensure jumper JP1 is fitted in position 2,3 for VDD = 5.0V
Remove link on jumper JP3
Insert links on jumpers JP4, JP5, JP6 and JP7
Re-apply power to board
Connect the programming voltage (VPP = 12.5V to 13.5V) power supply between test point
TP5 (+ve) and VSS (-ve)
(h) Ensure the PIC µC programming utility PICPROGA.EXE is loaded into the PC under DOS
and the PC is connected to the evaluation kit
(i) Download firmware into the PIC µC and verify it
TO LEAVE PROGRAMMING MODE
(a)
(b)
(c)
(d)
(e)
Remove power from board (including the programming voltage)
Remove links on jumpers JP4, JP5, JP6 and JP7
Insert a link on jumper JP3
Reconnect jumper JP1 in its original position
Reconnect the EV6000 to the other Evaluation Kits, checking that the voltage selection
jumpers are correctly set
(f) Ensure the terminal emulator program is running on the PC
(g) Re-apply power to board and run µC firmware via the PC terminal emulator
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1.6.2
EV6000
Software Description
1.6.2.1 PIC µC Programming Software
This is supplied on disk as a self-documented executable file PICPROGA.EXE for a PC running DOS
(either directly or as a DOS window in Windows 3.11 or '95). It is not recommended for use on
Windows NT systems. Please note that this programming software does not meet the Arizona
Microchip Technology verification requirements for a "production quality" programmer. Also, it does not
support the programming of ID locations and there is no checksum facility.
The user interface consists of two windows. The top window contains the operating instructions and the
bottom window shows the command line and data communications with the PIC µC. When the top
window first appears the user will be prompted to enter the number of the serial communications port to
which the EV6000 board is connected. Once the user has entered this number, the following
commands are displayed:
press F
to load file.
press C
to enter Configuration Word.
press B
to check target device is blank.
press P
to program target device.
press V
to verify target device.
press R
to read target device.
press A
to view contents of program data array.
Currently - xxxx
press Esc to return to DOS.
A new function from the above table can be selected whenever the >ok prompt appears in the bottom
window.
Notes:
a) Assembler output files must be in the Intel hex format (.HEX) in order to be usable by this
programming software.
b) The PIC µC supplied has a Configuration Word which is preset to 3FB9H if it is a PIC 16C74JW or
16LC74JW, or to 3FB1H if it is a PIC 16C74AJW or 16LC74AJW. In each case, this selects the
crystal oscillator, disables the watch dog timer, enables the power up timer and disables code
protection. The programming software currently defaults to 3FB1H. Consult Arizona Microchip
Technology for more information on the Configuration Word.
c) The "blank check" command (B) only looks at the first location. A programmed device will always
have data in this location as it is the program start address.
d) For each of the commands B,P,R and V the user will be prompted to manually reset the target µ
C, by pressing the RESET switch (SW1) on the EV6000 Evaluation Board. This is because PIC
programming always starts from location 0000 and the program counter can only be incremented.
e) Pressing A will display the program data in the bottom window, formatted in pages of 48
consecutive locations. Use the <PageUp> and <PageDown> keys to scroll through the data.
Pressing <Esc> will return the user to the >ok prompt.
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EV6000
1.6.2.2 EV6020/EV6040 Diagnostic Firmware
This is supplied both as a collection of assembler source routines on disk and pre-programmed into the
PIC µC, where it is identified as EF6000. The diagnostic and applications firmware supplied may be
replaced or supplemented by the user's own applications firmware. The PIC µC firmware is controlled
by a terminal emulator program, from a PC with Windows 3.11, '95 or NT.
Text commands are entered by the user into the terminal emulator. Characters are not case sensitive.
There is a global limit of 6 characters on any user input string. Whenever the >ok prompt is
displayed a new command may be entered and should be terminated by pressing the <Return> key.
Whenever a command has been entered, the > prompt is returned if data entry is required. To use a
function, the appropriate set-up commands must be entered before-hand. For example, to use the
EV6040 to transmit external data to the line, the following should be entered:
>ok
6040<Return>
>ok
tx<Return>
>ok
txext<Return>
>
; sets EV6000 for use with the EV6040
; sets the FX604 into Tx mode
; select desired function
The diagnostic commands are shown below.
(a)
Set-up commands:
6020
Set board for connection to and control of EV6020.
6040
Set board for connection to and control of EV6040.
dbit
Set FSK data format to 7 or 8 data bits. The user is prompted for the number of data
bits.
zp
Set FX602/FX604 into zero power mode.
zpirq Set FX602 into zero power mode, generating a pulse at the IRQN pin if ringing or a
line reversal is detected.
alert Set FX602 into tone alert detect mode.
rx&tx Set FX604 into Rx mode with back channel enabled.
(b)
tx
Set FX604 into Tx mode without data retiming.
rx
Set FX602/FX604 into Rx mode without data retiming.
Utilities: (Press <Esc> to exit these functions)
f!
Enter a mode where a 5 character string will write hex data to any register. PIC µC
ports are mapped as registers. Use the format aa dd<Return> where
aa is the register address in hex and dd is the data.
f@
Enter a mode where a 2 character string containing a register address in hex will
return the contents of that register.
echo
Enter a test mode where any text string entered by the user will be returned to the
terminal emulator by the EV6000.
dtmf
Enter a mode where any DTMF digit entered by the user will be transmitted by the
EV6020/6040.
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EV6000
txalt Enter a test mode where a continuous "10101010" pattern will be transmitted at 1200
baud by the FX604. Press <Esc> to terminate this pattern.
(c)
Functions:
(Press <Esc> to exit these functions)
rxfsk Enter a mode where FSK data received by the FX602/FX604 is interpreted as ASCII
characters and displayed within the terminal emulator window. If the FX604 Tx back
channel is enabled, then entering a 1 or 0 will change the state of the transmit data
output. The FX602/FX604 is operated with data retiming selected.
txtxt Enter a mode where text entered by the user or downloaded as a text transfer is
transmitted by the FX604. The FX604 is operated with data retiming selected.
txext Enter a mode where raw data can be applied by the user to connector J2 pin 2 on the
EV6000 board for transmission at 1200 baud by an FX604 on the attached
EV6020/EV6040 board. A clock output is provided on J2 pin 1 of the EV6000 board,
the positive-going edge of which may be used to latch data on to J2 pin 2.
rxext Enter a mode where raw data which has been received by an FX602 or FX604 at 1200
baud on the attached EV6020/EV6040 board can be read by the user on connector J2
pin 2 of the EV6000 board. A clock output is provided on J2 pin 1 of the EV6000
board, the positive-going edge of which may be used to latch data from J2 pin 2.
Notes:
Some terminal emulators have been found not to support full hardware flow control when transferring
text files. This could result in data loss when using the txtxt command. If this problem is
experienced, users should try using a lower data rate or a different terminal emulator.
The PIC I/O line (J2 pin 1) which is used for the rxext and txext commands is an open-collector
output with only a weak, 1MΩ, pull-up resistor fitted to the EV6000 board.
When using either of the f! or f@ utilities, the register address equates to the following I/O ports:
05
06
07
08
09
PORT A
PORT B
PORT C
PORT D
PORT E
The individual lines of each port equate to EV6020 (and EV6040) connections as follows:
_dtmf
_acload
_wp
_txline
PORT A
PORT A
PORT A
PORT A
bit 0
bit 1
bit 2
bit 3
_d3
_d2
_d1
_d0
_zp
_mode
_irqn
_det
PORT B
PORT B
PORT B
PORT B
PORT B
PORT B
PORT B
PORT B
bit 0
bit 1
bit 2
bit 3
bit 4
bit 5
bit 6
bit 7
_clk
PORT C
bit 0
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( _m0
( _m1
for EV6040)
for EV6040)
UM6000/3
Evaluation Kit User Manual for PIC Board
_rxd
_lvcp
_muten
EV6000
PORT C
PORT C
PORT C
bit 1
bit 2
bit 3
( _txd for EV6040)
( _rxeq for EV6040)
If the user wished to manually enable the near end speech path (from TP18 to the line), the following
commands would be entered:
>ok
f!<Return>
>05 08<Return>
>07 08<Return>
><Esc>
>ok
; sets HI port A bit 3, energising relay 1
; sets HI port C bit 3, enables speech input (TP18)
1.6.2.3 Applications Software
(a)
Application/Demonstration Commands
cas
(Press <Esc> to exit these functions)
Follows the CAS detection part of the CIDCW algorithm detailed in the FX602 data
sheet. Near end speech is input between TP18 and VSS (TP1 or TP2 ). If the detect
output is set for a time longer than T1, the near end speech path (TP18 to the line) is
muted. If the detect output then remains set (making a total detect time longer than T3
but less than 65ms) then, after a quiet period of 50ms, the DTMF digit "D"
acknowledgement tone is transmitted down the line.
Once this sequence has been completed, or aborted for not meeting a timing
requirement, the near end speech path is un-muted and the FX602 returned to tone
alert mode.
On the EV6020 board, the line termination resistor R20 (≈ 600Ω) should be fitted.
Note that this software does not present an off hook dc load to the line.
casd
Operates as above, but two decimal counters are run. The first counts the number of
times the near end speech is muted and the second counts the number of times the
DTMF acknowledgement is sent. The results are displayed and updated in the form:
M=00000000,A=00000000.>
where M represents mutes of the near end speech path and A represents
acknowledgement tones sent.
On the EV6020 board, the line termination resistor R20 (≈ 600Ω) should be fitted.
Note that this software does not present an off hook dc load to the line.
cast
This enables the user to adjust the CAS detection algorithm timings T1 and T3. The
user is prompted as follows:
T1=3A98>
Type <Return> for no change, or enter the new setting (in µs) in hex.
e.g.
For T1 = 10ms = 10,000µs = 2710hex, type 2710<Return>
The user is then prompted to alter T3 in the same way. The default settings are T1 =
15ms = 3A98hex and T3 = 25ms = 61A8hex.
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EV6000
cidcw This demonstration covers both the BT and Bellcore off-hook caller ID services. The
CAS detection algorithm runs as detailed for cas but once the DTMF
acknowledgement is sent the FX602 is set to receive mode and the FSK data is
displayed in the form of these examples:
>80,02,01376-513833.01,03101415.11,01,.00,
1, 2, 3,
2, 3,
2, 3,
4.
where 1 is the Message type word
2 is the Parameter type word
3 is the Parameter characters or data
4 is the Result of the checksum
or in the following form:
>80,A parameter.00,
1, 2,
3.
where 1 is the Message type word
2 is the Message characters or data
3 is the Result of the checksum
On the EV6020 board, the line termination resistor R20 (≈ 600Ω) should be fitted.
Note that this software does not present an off hook dc load to the line.
clip
This demonstration covers the BT on-hook service initiated by a line reversal. On the
EV6020 board, JP1 should be in position 2-3 for detection of a line reversal. The idle
condition is with the FX602 in zero power mode and with IRQN enabled. When a line
reversal is detected the FX602 is set to tone alert mode. Once the alert tone is
detected the FX602 is set to receive FSK data, which is displayed in the same way as
for cidcw.
On the EV6020 board, relay 2 is energised for 15ms during the silent period between
the alert tone and the FSK data. A resistor can be fitted in the R26 position to provide
a current wetting pulse. Relay 3 is energised during the FSK receive period.
Components can be fitted in positions R30, R36 and C10 to provide an ac termination
to the line.
cid
This demonstration covers the Bellcore on-hook service associated with ringing. On
the EV6020 board, JP1 should be in position 1-2 for detection of ringing. The idle
condition is with the FX602 in zero power mode and with IRQN enabled. A detect
pulse of duration < 500ms is assumed to be a line reversal and is ignored. When a
burst of ringing current is detected the FX602 is set to receive FSK data, which is
displayed in the same way as for cidcw.
On the EV6020 board, relay 3 is energised during the FSK receive period.
Components can be fitted in positions R30, R36 and C10 to provide an ac termination
to the line.
ntt
This demonstration covers the NTT on-hook service associated with ringing. On the
EV6020 board, JP1 should be in position 1-2 for detection of ringing. The idle
condition is with the FX602 in zero power mode and with IRQN enabled. A detect
pulse of duration < 500ms is assumed to be a line reversal and is ignored. When a
burst of ringing current is detected the FX602 is set to receive FSK data, which is
displayed in the form of the following example:
 1996 Consumer Microcircuits Limited
15
UM6000/3
Evaluation Kit User Manual for PIC Board
EV6000
>20,01,07,20,02,40,02,01376-13833.11,01,20,02,xx,xx,
1, 2, 3, 1, 4, 5, 6, 7,
6, 7, 1, 4, 8.
where 1 is the DLE character
2 is the SOH character
3 is the Header character
4 is the STX character
5 is the Service type word
6 is the Parameter type word
7 is the Parameter characters or data
8 is the 16 bit checksum
On the EV6020 board, relay 3 is energised during the FSK receive period.
Components can be fitted in positions R30, R36 and C10 to provide an ac termination
to the line.
 1996 Consumer Microcircuits Limited
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UM6000/3
Evaluation Kit User Manual for PIC Board
1.7
Performance Specification
1.7.1
Electrical Performance
EV6000
Absolute Maximum Ratings
Exceeding these maximum ratings can result in damage to the Evaluation Kit.
Supply (VIN - VSS)
Supply (VDD - VSS)
Voltage on any connector pin to VSS, except connector J3
Current into or out of VIN and VSS pins
Current into or out of any other connector pin
Storage Temperature
Operating Temperature
Min.
-0.3
-0.3
-0.3
0
-20
-10
+10
Max.
40.0
7.0
VDD + 0.3
+1.5
+20
+70
+35
Units
V
V
V
A
mA
°C
°C
Max.
35.0
5.5
+35
20.0
4.0
Units
V
V
°C
MHz
MHz
Operating Limits
Correct operation of the Evaluation Kit outside these limits is not implied.
Notes
Supply (VIN - VSS)
Supply (VDD - VSS)
Operating Temperature
External Clock Frequency
External Clock Frequency
(VDD = 5.0V)
(VDD = 3.3V)
Min.
8.0
3.0
+10
0.1
0.1
Operating Characteristics
For the following conditions unless otherwise specified:
µC Xtal Frequency = 4.0MHz, VDD = 3.3V or 5.0V, Tamb = +25°C.
Notes
Min.
Typ.
Max.
Units
DC Parameters
IDD
1
-
-
20
mA
AC Parameters
OSC1 Input to PIC µC
'High' pulse width
'Low' pulse width
2
2
50
50
-
-
ns
ns
10
-
20%
+5.0
10%
VDD
VDD
µA
pF
VDD
VDD
µC Interface (Connector J1)
Input logic "1" level
Input logic "0" level
Input leakage current (Vin = 0 to VDD)
Input capacitance
Output logic "1" level (lOH = 120µA)
Output logic "0" level (lOL = 360µA)
 1996 Consumer Microcircuits Limited
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3
3
3
4
4
17
80%
5.0
90%
-
UM6000/3
Evaluation Kit User Manual for PIC Board
Notes:
1.
2.
3.
4.
EV6000
Not including any current drawn from the board connector pins by external circuitry.
Timing for an external input to the OSC1 pin.
When µC pin is configured as an input.
When µC pin is configured as an output.
Operating Characteristics - Timing Diagrams
For µC timing information and operating characteristics, see manufacturer's literature (Arizona Microchip
Technology).
For FX602/FX604/FX614 timing information and operating characteristics, refer to CML Data Sheets.
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 evaluation kit specification. Evaluation kits are supplied for the sole purpose of demonstrating the
operation of CML products and are supplied without warranty. They are intended for use in a
laboratory environment only and are not for re-sale, end-use or incorporation into other equipments.
Operation of evaluation kits outside a laboratory environment is not permitted within the European
Community. All software is supplied "as is" and is without warranty. It forms part of the evaluation kit
and is licensed for use only in this kit, for the purpose of demonstrating the operation of CML products.
Whilst all reasonable efforts are made to ensure that software contained in this product is virus free,
CML accepts no responsibility whatsoever for any contamination which results from using this software
and the onus for checking that the software is virus free is placed on the purchaser of this evaluation
kit.
CONSUMER MICROCIRCUITS LIMITED
1 WHEATON ROAD
WITHAM - ESSEX
CM8 3TD - ENGLAND
Telephone:
Telefax:
e-mail:
+44 1376 513833
+44 1376 518247
[email protected]
http://www.cmlmicro.co.uk
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