SIMATIC NET
Development Kit DK-5613 for the CP 5613/CP 5614
Manual
1 How to Use the DK-5613.....................................................................................................................................3
2 The DOS Components.........................................................................................................................................4
3 CP 5613 / CP 5614 Dual-port RAM Layout...................................................................................................8
4 Basic Operations ..............................................................................................................................................26
5 LDB File Structure..........................................................................................................................................32
6 Glossary..............................................................................................................................................................39
C79000-G8976-C135-06 Release 6
SIMATIC NET is a trademark of Siemens
Siemens Aktiengesellschaft
We have checked the contents of this manual for
agreement with the hardware described. Since
deviations cannot be precluded entirely, we cannot
guarantee full agreement. However, the data in this
manual are reviewed regularly and any necessary
corrections included in subsequent editions.
Suggestions for improvement are welcome.
Technical data subject to change.
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or its contents is not permitted without express written
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registration of a utility or design, are reserved.
C79000-G8976-C135-06
Copyright © Siemens AG 2002-2004
All Rights Reserved
Siemens Aktiengesellschaft Elektronikwerk Karlsruhe
Printed in the Federal Republic of Germany
SIMATIC NET
Development Kit DK-5613 for the CP 5613/CP 5614
Manual C79000-G8976-C135-
06
History of the document
Document
release Description Comment
1 • Describes DK-5613 V1.0 Development release
2 • Describes DK-5613 V1.1 First customer release
3 • Describes DK-5613 V1.2
• Chapter 5 LDB File Structure
Additional chapter
4 • Describes DK-5613 V2.0 OS-Dependent Parts of CI_DLL
extracted
5 • Describes DK-5613 V3.0 Equidistance
6 • Describes DK-5613 V3.1 CP5613A2/CP5614A2
Note
We would point out that the contents of this product documentation shall not become a part of or modify any prior or
existing agreement, commitment or legal relationship. The Purchase Agreement contains the complete and exclusive
obligations of Siemens. Any statements contained in this documentation do not create new warranties or restrict the
existing warranty.
We would further point out that, for reasons of clarity, these operating instructions cannot deal with every possible
problem arising from the use of this device. Should you require further information or if any special problems arise which
are not sufficiently dealt with in the operating instructions, please contact your local Siemens representative.
General This device is electrically operated. In operation, certain parts of this device carry a dangerously high
voltage.
WARNING ! Failure to heed warnings may result in serious physical injury and/or material damage.
Only appropriately qualified personnel may operate this equipment or work in its vicinity. Personnel
must be thoroughly familiar with all warnings and maintenance measures in accordance with these
operating instructions.
Correct and safe operation of this equipment requires proper transport, storage and assembly as well
as careful operator control and maintenance.
Personnel qualification requirements
Qualified personnel as referred to in the operating instructions or in the warning notes are defined as persons who are
familiar with the installation, assembly, startup and operation of this product and who possess the relevant qualifications
for their work, e.g.:
− Training in or authorization for connecting up, grounding or labeling circuits and devices or systems in accordance
with current standards in safety technology;
− Training in or authorization for the maintenance and use of suitable safety equipment in accordance with current
standards in safety technology;
− First Aid qualification.
!
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 1
Contents
1 How to Use the DK-5613...................................................................................................................................3
1.1 CP5613A2 / CP5614A2...........................................................................................................................3
2 The DOS Components.......................................................................................................................................4
2.1 Installation.................................................................................................................................................5
2.2 DP_BASE.LIB / DPS_BASE.LIB.............................................................................................................6
2.3 CI_DLL.LIB.................................................................................................................................................7
3 CP 5613 / CP 5614 Dual-port RAM Layout.................................................................................................8
3.1 PLX Area.....................................................................................................................................................9
3.2 Download Area.......................................................................................................................................10
3.2.1 CP 5613 and CP 5614.......................................................................................................................10
3.2.2 CP 5613 A2 and CP 5614 A2..........................................................................................................11
3.3 Data Area.................................................................................................................................................12
3.3.1 ctr_cpu..............................................................................................................................................13
3.3.2 dp.......................................................................................................................................................13
3.3.3 cc.......................................................................................................................................................14
3.3.4 dp.ctr.................................................................................................................................................14
3.3.5 dp.ef..................................................................................................................................................15
3.3.6 dp.ef.input and dp.ef.diag..............................................................................................................15
3.3.7 dp.pi..................................................................................................................................................15
3.3.8 dp.pi.slave_in ..................................................................................................................................16
3.3.9 dp.pi.slave_out................................................................................................................................16
3.3.10 dp.pi.slave_diag..............................................................................................................................16
3.3.11 dp.info_watch..................................................................................................................................17
3.3.12 dp.info_watch.slave_info..............................................................................................................18
3.3.13 dp.info_watch.master_info............................................................................................................18
3.3.14 dp.info_watch.aspc2_event..........................................................................................................19
3.3.15 dp.info_watch.aspc2_buspara......................................................................................................20
3.3.16 dp.info_watch.slavemod_data......................................................................................................21
3.3.17 dp.info_watch.slavemod_data.sm_diag......................................................................................22
3.3.18 cc.adm_cp........................................................................................................................................23
3.3.19 cc.block.............................................................................................................................................24
3.3.20 cc.block.usr_header........................................................................................................................25
4 Basic Operations ............................................................................................................................................26
4.1 Initializing the CP..................................................................................................................................26
4.1.1 CP5613/CP5614................................................................................................................................26
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 2
4.1.2 CP 5614A2/CP5614A2....................................................................................................................27
4.2 Sending Data to the Command Channel and Receiving the Response.............................28
4.3 Accessing Input, Output, and Diagnostic Data................................................................................28
4.4 Using the CP Interrupt..........................................................................................................................29
4.5 Using Fast Logic....................................................................................................................................30
4.6 Events.......................................................................................................................................................30
4.7 Setting the Diagnostic Data of the Slave Module (CP 5614 only)....................................31
5 LDB File Structure........................................................................................................................................32
5.1 Version-Block (optional).....................................................................................................................32
5.2 System-Block...........................................................................................................................................33
5.3 DP-Block..................................................................................................................................................35
5.4 FMS-Block (optional)...........................................................................................................................38
5.5 End-Block................................................................................................................................................38
6 Glossary............................................................................................................................................................39
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 3
1 How to Use the DK-5613
This chapter contains general information on porting the driver to any operating
system.
The development kit allows customers to access the CP 5613/CP 5614 under
operating systems other than those for which drivers are available.
The starting point of this process is the source code supplied with this package
which provides an interface for MS-DOS systems as an example.
This document is not intended to enable you to write a driver from scratch, but will
guide you through the source modules and help you to port the sources.
See chapter 2.1 for instructions for the installation of the required components.
Note: Always use this code in conjunction with the firmware file in this
package! If you use driver and firmware versions that do not match, you may
encounter unpredictable results!
The original tools used were Watcom C/C++ V10.5 or Open Watcom 1.1 from
www.openwatcom.org.
You will need the required development tools for driver development of your target
operating system.
1.1 CP5613A2 / CP5614A2
Concerning the handling by the DK there are only few differences between a CP 5613
and a CP 5613 A2.
There are
• new DeviceIDs
• the download structure in dual port ram has changed
• different firmware files to load
• start and reset are different
This differences are handled by CI_DLL. You can search for CP5613A2 in the
sources of CI_DLL. See also Chapter 3 and 4 in this document.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 4
2 The DOS Components
This chapter describes the structure of the components needed for the CP 5613 /
CP 5614 under MS-DOS.
The DOS interface has the following restrictions:
• Semaphores have to be implemented depending on the target-OS (if needed)
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 5
2.1 Installation
• Copy the complete directory cd:\sw\dos to your working-directory\dos. Be sure
to use a copy-command which removes the read-only attribute of all files or
remove the read-only attribute manually from all copied files.
• Setup the path-information in the file setenv.bat in your working-directory\dos
• Adapt the calls to your development system and the make-syntax in the .mk*-
files in all subdirectories of working-directory\dos, if you don't use the Watcom
C/C++ compiler
• Adapt all operating system dependend parts in the file dos\ci_dll\src\os_adapt.c
and dos\ci_dll\src\os_adapt.h
• Generate all modules by calling 'm.bat' in the make-directory of each
subdirectory of 'dos'
• Test your generated components
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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2.2 DP_BASE.LIB / DPS_BASE.LIB
These libraries are the counterpart of the DP_BASE.DLL and DPS_BASE.DLL in the
standard Windows NT interface.
The sources contain no code specific to a particular operating system outside the
#ifdef WIN32, #endif brackets.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 7
2.3 CI_DLL.LIB
This library is the counterpart of the CI_DLL.DLL and CP5613.SYS in the standard
Windows XP software.
There are to modules for generating the CI_DLL.LIB. The general code is located in
the file ci_dll.c, all operating-system dependent code is located in the file
os_adapt.c.
You must adapt the code in os_adapt.c and os_adapt.h to your operating system.
Detailed information can be found in the function-headers of os_adapt.c.
The modules can only be compiled for 32-bit flat systems.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 8
3 CP 5613 / CP 5614 Dual-port RAM Layout
This chapter describes the layout of the areas in the dual-port RAM in detail.
The dual-port RAM areas are mapped by the Plug&Play Bios during startup.
Drivers must read the addresses from the PCI configuration register:
PCI Config. Reg. Content
... ...
0x10 Physical address of PLX
0x14 I/O address (unused)
0x18 Physical address of download area
0x1C Physical address of data area
... ...
The vendor ID and device ID can be found in the #defines VENDOR_ID ( 0x110A),
DEVICE_ID_5613A1 (0x3142) and DEVICE_ID_5613A2 (0x4029).
Some operating systems have the PCI functionality integrated, so there is no need to
directly access the PCI configuration register.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 9
3.1 PLX Area
The PLX area points to the PCI local configuration registers:
Offset Type Description Comment
0x00 DPR_WORD LAS0_Range_lsw; reserved
0x02 DPR_WORD LAS0_Range_msw; reserved
0x04 DPR_WORD LAS1_Range_lsw; reserved
0x06 DPR_WORD LAS1_Range_msw; reserved
0x08 DPR_WORD res_w_00[0x06]; reserved
0x14 DPR_WORD LAS0_Base_lsw; reserved
0x16 DPR_WORD LAS0_Base_msw; reserved
0x18 DPR_WORD LAS1_Base_lsw; reserved
0x1A DPR_WORD LAS1_Base_msw; reserved
0x1C DPR_WORD res_w_01[0x06]; reserved
0x28 DPR_WORD LAS0_Bus_lsw; reserved
0x2A DPR_WORD LAS0_Bus_msw; reserved
0x2C DPR_WORD LAS1_Bus_lsw; reserved
0x2E DPR_WORD LAS1_Bus_msw; reserved
0x30 DPR_WORD res_w_02[0x06]; reserved
0x3C DPR_WORD CS0_lsw; reserved
0x3E DPR_WORD CS0_msw; reserved
0x40 DPR_WORD CS1_lsw; reserved
0x42 DPR_WORD CS1_msw; reserved
0x44 DPR_WORD res_w_03[0x04]; reserved
0x4C DPR_BYTE LB_INT_CONTROL_lsw; 0x41: interrupt enabled
0x01: interrupt disabled
(see Chapter 5.4)
0x4D DPR_BYTE HB_INT_CONTROL_lsw; reserved
0x4E DPR_WORD INT_CONTROL_msw; reserved
0x50 DPR_BYTE LB_MULTI_CONTROL_lsw; reserved
0x51 DPR_BYTE HB_MULTI_CONTROL_lsw; write 0x15 and then
0x1D to issue an
interrupt to the CP
0x52 DPR_WORD MULTI_CONTROL_msw; reserved
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 10
3.2 Download Area
The download area is used to copy the firmware and the ldb file. This must be done
before starting the CP. After the CP is started, the host cannot access this area.
This structure is different for CP5613/CP5614 and CP 5613A2/CP5614A2. The
structure for each card type (CP5613_DOWNLOAD_T, CP5613A2_DOWNLOAD_T)
is now part of the union CP5613_DOWNLOAD_UT.
3.2.1 CP 5613 and CP 5614
The structure shown in the figure below is defined in the C structure
CP5613_DOWNLOAD_T in the file ci_5613.h. The layout has changed with DK 5613
V 3.1 because of the bigger firmware.
xxx00000
ampro_scb
xxx10000
mem_aspc2
xxx88000
loaded database
database_area
xxx97EFE
equ
xxx9FFF0
add_info
xxx98000
Firmware
(425972 Bytes)
xxxFFFF4
xxxFFFFF
reset_area
Figure 1: Download Area Layout
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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Ampro_scb, mem_aspc2 and reset area are reserved areas.
The add_info structure must be set to 0.
The ldb file must be located at the beginning of the database area.
3.2.2 CP 5613 A2 and CP 5614 A2
The structure shown in the figure below is defined in the C structure
CP5613A2_DOWNLOAD_T in the file ci_5613.h.
xxx00000
loaded database
database_area
xxx3FEFE
equ
xxx3FF0E
add_info
xxx40000
go_signal
xxx40004
firmware
xxxFFFFF
Figure 2: Download Area Layout A2
The add_info structure must be set to 0.
The ldb file and the firmware file must be located at the beginning of the area.
The go_signal should be readable as 0xa5a5a5a5. You can use this to check if the download
area is correct mapped.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 12
3.3 Data Area
The data area is used to communicate with the CP during runtime.
The structure shown in the figure below is defined in the C structure
DPR_CP5613_ALL_T in the file ci_5613.h.
xxx00000
ctr_cpu (control-area)
xxx78000
dp (I/O/D)
xxxE1000
xxxFFFFF
cc (command-channel)
Figure 2: Data Area Layout
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 13
3.3.1 ctr_cpu
Layout of ctr_cpu (structure DPR_CP5613_CTR_CPU_T in file ci_5613.h):
Offset Type Description Comment
0x00000 DPR_WORD C_res_en 0x00 = go all
0x01 = reset CPU, go ASPC2
0x02 = go CPU, reset ASPC2
0x03 = reset all
0x04000 DPR_WORD C_int_cp_to_host not used from host side
0x08000 DPR_WORD C_info_cp_int Interrupt source
bit 0: DP cycle start interrupt
bit 1: input data changed
bit 2: diagnostic data changed
bit 3: new data in command-channel
0x0C000 DPR_WORD C_ack_dp_cycle_int host ackn. of DP cycle start int
0x0E000 DPR_WORD C_ack_pae_int host ackn. of input data change int
0x10000 DPR_WORD C_ack_pad_int host ackn. of diag data change int
0x12000 DPR_WORD C_ack_cp_to_host_in
t host acknowledge of cp int (new data
in command channel)
3.3.2 dp
Layout of dp (structure DPR_CP5613_DP_T):
Name Type Description
ctr DPR_CP5613_CTR_T control data
ef DPR_CP5613_EF_T event and filter control
pi DPR_CP5613_PI_T process image
info_watch DPR_CP5613_INFO_WATCH_T additional information
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.3 cc
Layout of cc (structure DPR_CP5613_DP_T):
Name Type Description
adm_cp ADM_CP_T administrative data
block[CI_BLOCK_COUNT] CI_DATA_BUFFER_T communication tiles
reserved_b_01[0x0A8] DPR_BYTE unused area
trace_driver[0x1200] DPR_BYTE trace area for driver
3.3.4 dp.ctr
Layout of dp.ctr (structure DPR_CP5613_CTR_T):
Name Type Description
D_cycle_start_mask DPR_WORD for future use
no_ram_here_reserved_b_00[0x7FFE] DPR_BYTE unused
D_lock_in_slave_adr DPR_WORD slave-address for
consistent input data
no_ram_here_reserved_b_01[0x7FFE] DPR_BYTE unused
D_out_slave_adr DPR_WORD slave address for
consistent output data
no_ram_here_reserved_b_02[0x7FFE] DPR_BYTE unused
D_lock_diag_slave_adr DPR_WORD slave address for
consistent diag data
no_ram_here_reserved_b_03[0x7FFE] DPR_BYTE unused
no_ram_here_reserved_b_04[0x8000] DPR_BYTE unused
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.5 dp.ef
Layout of dp.ef (structure DPR_CP5613_EF_T):
Name Type Description
input[DPR_MAX_SLAVE_NR] DPR_MASK_DATA_INT_T input masks; see
below
reserved_b_00[0x8000] DPR_BYTE unused
diag[DPR_MAX_SLAVE_NR] DPR_MASK_DATA_INT_T diag masks; see
below
reserved_b_01[0x8000] DPR_BYTE unused
3.3.6 dp.ef.input and dp.ef.diag
Layout of dp.ef.input and dp.ef.diag (structure DPR_MASK_DATA_INT_T):
Name Type Description
req_mask DPR_BYTE DPR_DATA_INT_CLEAR_AND
_UNMASK: no request, int
enabled
DPR_DATA_INT_CLEAR_AND
_MASK: no request, int
disabled
DPR_DATA_CHANGE:
request, int disabled
other values: invalid
no_ram_here_dont_touch[0x00FF
] DPR_BYTE unused
3.3.7 dp.pi
Layout of dp.pi (structure DPR_CP5613_PI_T):
Name Type Description
slave_in[DPR_MAX_SLAVE_NR] DPR_SLAVE_IN_T input data
slave_out[DPR_MAX_SLAVE_NR] DPR_SLAVE_OUT_T output data
slave_diag[DPR_MAX_SLAVE_NR] DPR_SLAVE_DIAG_T diag data
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.8 dp.pi.slave_in
Layout of dp.pi.slave_in (structure DPR_SLAVE_IN_T):
Name Type Description
data[DPR_SLAVE_DATA_SIZE] DPR_BYTE input data
reserved_b_00[0x0A] DPR_BYTE reserved
3.3.9 dp.pi.slave_out
Layout of dp.pi.slave_out (structure DPR_SLAVE_OUT_T):
Name Type Description
data[DPR_SLAVE_DATA_SIZE] DPR_BYTE output data
reserved_b_00[0x0A] DPR_BYTE reserved
3.3.10 dp.pi.slave_diag
Layout of dp.pi.slave_diag (structure DPR_SLAVE_DIAG_T):
Name Type Description
data[DPR_SLAVE_DATA_SIZE] DPR_BYTE diag data
diag_len DPR_WORD actual diag len
diag_count DPR_WORD number of diag updates for
this slave
reserved_w_00[0x03] DPR_WORD reserved
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.11 dp.info_watch
Layout of dp.info_watch (structure DPR_CP5613_INFO_WATCH_T):
Name Type Description
slave_info[DPR_MAX_SLAVE_NR] DPR_SLAVE_INFO_T see table
below
master_info DPR_MASTER_INFO_T see table
below
aspc2_event DPR_ASPC2_EVENT_T see table
below
aspc2_buspara DPR_ASPC2_BUSPARA
_T see table
below
user_watchdog[0x170] DPR_BYTE for future use
activated_fast_logic[0x04] DPR_WORD 0xFFFF: fast
logic triggered
slavemod_data DPR_SLAVEMOD_DATA
_T data-structure
for slave
module
(CP 5614)
equ_error DPR_CP5613_EQU_ER
ROR for future use
reserved_b_10[0x3E8] DPR_BYTE
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.12 dp.info_watch.slave_info
Layout of dp.info_watch.slave_info (structure DPR_SLAVE_INFO_T):
Name Type Description
slave_in_database DPR_WORD 0: slave is not configured
1: slave is configured
slave_type DPR_WORD DP_SLV_TYP_EMPTY: no DP slave
DP_SLV_TYP_DP: DP slave
DP_SLV_TYP_DPV1: DPV1 slave
slave_out_byte DPR_WORD number of output bytes
slave_in_byte DPR_WORD number of input bytes
slave_state DPR_WORD DPR_SLV_NOT_READY
DPR_SLV_READY
detail DPR_WORD reserved
alarm_flag DPR_WORD DPV1 alarm pending
reserved_w_00 DPR_WORD unused
3.3.13 dp.info_watch.master_info
Layout of dp.info_watch.master_info (structure DPR_MASTER_INFO_T):
Name Type Description
USIF_state DPR_WORD state of the master
ident_number DPR_WORD PNO ident number
hw_version DPR_WORD hardware version
fw_version DPR_WORD firmware version
reserved_w_00[4] DPR_WORD unused
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Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.14 dp.info_watch.aspc2_event
Layout of dp.info_watch.aspc2_event (structure DPR_ASPC2_EVENT_T):
Name Type Description
reserved_tick_5ms DPR_WORD reserved
on_double_token DPR_WORD counter for double token errors
on_timeout DPR_WORD counter for timeout errors
on_syni_error DPR_WORD counter for syni errors
on_hsa_error DPR_WORD counter for hsa errors
on_response_error DPR_WORD counter for response errors
on_las_useless DPR_WORD counter for las useless errors
on_rec_frame_overflow DPR_WORD counter for receive frame overflow
errors
on_fifo_error DPR_WORD counter for fifo errors
on_req_length_error DPR_WORD counter for request length errors
off_pass_token_error DPR_WORD counter for pass token errors
off_ts_adr_error DPR_WORD counter for ts-adr errors
off_hsa_error DPR_WORD counter for hsa errors
in_ring DPR_WORD counter for in-ring events
out_of_ring DPR_WORD counter for out-of-ring events
bus_control_error DPR_WORD bus short cut
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.15 dp.info_watch.aspc2_buspara
Layout of dp.info_watch.aspc2_buspara (structure DPR_ASPC2_BUSPARA_T):
Name Type Description
ts DPR_BYTE station address
baud_rate DPR_BYTE DP_M_BAUDRATE_9K6,
DP_M_BAUDRATE_19K2,
DP_M_BAUDRATE_93K75,
DP_M_BAUDRATE_187K5,
DP_M_BAUDRATE_500K,
DP_M_BAUDRATE_750K,
DP_M_BAUDRATE_1M5,
DP_M_BAUDRATE_3M,
DP_M_BAUDRATE_6M,
DP_M_BAUDRATE_12M,
DP_M_BAUDRATE_31K25,
DP_M_BAUDRATE_45K45
tsl DPR_WORD see EN50170
min_tsdr DPR_WORD see EN50170
max_tsdr DPR_WORD see EN50170
tqui DPR_BYTE see EN50170
tset DPR_BYTE see EN50170
ttr DPR_DWORD see EN50170
g DPR_BYTE see EN50170
hsa DPR_BYTE see EN50170
max_retry_limit DPR_BYTE see EN50170
station_type DPR_BYTE see EN50170
trdy DPR_WORD see EN50170
tid1 DPR_WORD see EN50170
tid2 DPR_WORD see EN50170
tmsi DPR_DWORD see EN50170
tmsi_reserve DPR_WORD see EN50170
tbus_control_in_ring DPR_WORD see EN50170
tbus_control_out_of_ring DPR_WORD see EN50170
acyc_req_ctr DPR_WORD see EN50170
mode_clock_sync DPR_BYTE see EN50170
delay_time_ctr_clock_sync DPR_BYTE see EN50170
mode_equ_dis DPR_BYTE see EN50170
master_equ_dis DPR_BYTE see EN50170
BpFlag DPR_BYTE see EN50170
MinSlaveInterval DPR_WORD see EN50170
PollTimeout DPR_WORD see EN50170
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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DataControlTime DPR_WORD see EN50170
reserved_b_00[1] DPR_BYTE unused
3.3.16 dp.info_watch.slavemod_data
Layout of dp.info_watch.slavemod_data (structure DPR_SLAVEMOD_DATA_T)
(CP 5614 only)
Name Type Description
sm_diag DPR_SM_DIAG_T diagnostic handling for slave module
act_gc DPR_WORD last global control of slave module
gc_ctr DPR_WORD count of global control commands
received by slave module
baud_state DPR_WORD DPS_BAUD_SEARCH: baudrate search
DPS_BAUD_FOUND: baudrate found
DPS_BAUD_FOUND_WD: baudrate
found, watchdog activated
baud_rate DPR_WORD DPS_BD_9K6,
DPS_BD_19K2,
DPS_BD_45K45,
DPS_BD_93K75,
DPS_BD_187K5,
DPS_BD_500K,
DPS_BD_1M5,
DPS_BD_3M,
DPS_BD_6M,
DPS_BD_12M,
data_ex_state DPR_WORD DPS_OFFLINE,
DPS_WAIT_PRM,
DPS_WAIT_CFG,
DPS_DATA_EX
reserved[246] DPR_BYTE unused
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3.3.17 dp.info_watch.slavemod_data.sm_diag
Layout of dp.info_watch.slavemod_data.sm_diag (structure DPR_SM_DIAG_T)
(CP 5614 only) :
Name Type Description
request DPR_WORD request counter: increment to set new
diagnostic data
response DPR_WORD response counter: incremented when
slave module accepted new diagnostic
data
len DPR_WORD user diag data len
state DPR_WORD Bit field with bits to be set in the standard
part of the diagnostic data:
DPS_EXT_DIAG,
DPS_STAT_DIAG,
DPS_EXT_DIAG_OV
diag_data[238] DPR_BYTE user diag data
reserved[10] DPR_BYTE unused
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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3.3.18 cc.adm_cp
Layout of cc.adm_cp (structure ADM_CP_T):
Name Type Description
fw_version[0x20] DPR_BYTE firmware version string
fw_error CP_ADM_ERR_T firmware error information
to_send_index DPR_WORD index of tile to be sent
cp_ready DPR_WORD This flag is set by the CP and reset by
the host.
ADM_HC_DATA_HERE: tile inserted by
CP
ADM_HC_DATA_TAKEN: tile
processed by host
host_ready DPR_WORD This flag is set by the host and reset by
the CP.
ADM_HC_DATA_HERE: tile inserted by
host
ADM_HC_DATA_TAKEN: tile
processed by CP
block_return_hea
d DPR_WORD index of tile to be released
data_return_head DPR_WORD index of data tile to be processed
status DPR_WORD must be set to STATUS_INIT before
starting CP and is set to
STATUS_RUNNING by the firmware if
the CP is running.
in_ice DPR_WORD reserved
cpu_id DPR_WORD reserved
aspc2_id DPR_WORD reserved
cp_life_counter DPR_DWORD reserved
fw_int_status DPR_WORD FW_INT_NO_ACTION: no operation
FW_INT_TRIGGER: triggers an empty
interrupt to the host
pc_int_status DPR_WORD reserved
cp_perf_counter DPR_WORD reserved
test ADM_TEST_S reserved
fastlogic_req DPR_WORD fast logic event occurred
dp_access DPR_WORD for driver use (not processed by
firmware)
uhr CP_DPR_SCI_TI
ME_T reserved
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sap[SAP_SIZE] CP_DPR_SAP_T reserved
reserved_3[0x064] DPR_BYTE unused
3.3.19 cc.block
Layout of cc.block (structure CI_DATA_BUFFER_T):
Name Type Description
usr_header CI_REQUEST_HE
ADER_T header
next_block DPR_WORD chained block index
next_request DPR_WORD chained request index
block_fill_length DPR_WORD number of valid bytes in block when
sending block to CP
own_index DPR_WORD index of this tile
search_pat_0 DPR_WORD must be set to CI_SEARCH_PAT_FW,
if block is to be sent;
must be set to CI_SEARCH_PAT_DRV,
if block has been received
res_for_subsys DPR_DWORD reserved
reserved[1] DPR_WORD reserved
data[] DPR_BYTE user data
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3.3.20 cc.block.usr_header
Layout of cc.block.usr_header (structure CI_REQUEST_HEADER_T):
Name Type Description
user_handle DPR_DWORD used by driver
reserved_dw_00 DPR_DWORD unused
opcode DPR_DWORD opcode of command
timeout DPR_DWORD timeout for receive
order_id DPR_DWORD for driver use (not processed by
firmware)
response DPR_DWORD error code of firmware
buf_length DPR_WORD length of user buffer
buf_fill_length DPR_WORD number of valid data in block when
receiving from CP
alloc_index DPR_DWORD internal counter of firmware
alloc_index DPR_DWORD internal counter of firmware
stamp_send DPR_DWORD internal timestamp of firmware
stamp_receive DPR_DWORD internal timestamp of firmware
Development Kit DK-5613 for the CP 5613/CP 5614
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4 Basic Operations
This chapter describes operations essential to working with the CP 5613 / CP 5614.
4.1 Initializing the CP
There are some differences between CP5613/CP5614 and CP5613A2/CP5614A2.
See also the function CI_start_cp in CI_DLL.
4.1.1 CP5613/CP5614
To start the CP do the following:
Get the pointers to the memory areas of the CP from the PCI-BIOS
Make sure that the CP has been reset, so that you can access the download area by
setting
dpr->ctr_cpu.C_res_en=0x03.
copy the database file to the start of down->database_area
copy the firmware-file to down->firmware
set all bytes of down.a1->add_info to 0
dpr->cc.adm_cp.status=STATUS_INIT
start the CP by setting dpr->ctr_cpu.C_res_en=0x02
wait until dpr->cc.adm_cp.status==STATUS_RUNNING
The card is then running and you can use the command channel to switch the
master to operate.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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4.1.2 CP 5614A2/CP5614A2
To start the CP do the following:
Get the pointers to the memory areas of the CP from the PCI-BIOS
Check access to download area:
go_signal == 5a5a5a5a ?
copy the database file to the start of down->database_area
copy the firmware-file to the start of down->firmware
initialize variables:
set all bytes of down.a2->add_info to 0
dpr->cc.adm_cp.status=STATUS_INIT
start the CP with
*pGoSignal = 0xa5a5a5a5;
wait until dpr->cc.adm_cp.status==STATUS_RUNNING
The card is then running and you can use the command channel to switch the
master to operate.
To reset a CP 5613A2 / CP5614A2 do:
ptr_dpram->ctr_cpu.C_res_en=CP5613_RESET
Make a delay
Wait for 10 ms
cp_data[cp_index].ptr_dpram->ctr_cpu.C_res_en=CP5613_ENABLE;
Make a delay
Wait for 300 ms
The timing is critical. If the delays are shorter than this values the PC may freeze.
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4.2 Sending Data to the Command Channel and
Receiving the Response
To send a request to the CP, follow the steps outlined below:
locate a free block in the dpr
initialize the block header
copy the user data to the block
wait until dpr->cc.adm_cp.host_ready is 0
set dpr->cc.adm_cp.to_send_index to the used buffer index
set dpr->cc.adm_cp.host_ready to 1
issue an interrupt to the CP by setting plx->HB_MULTI_CONTROL_lsw first to 0x15 and
then to 0x1D
The CP then processes the command. You can now poll for the response or you can
use the interrupt generated by the CP if the response data is available.
check dpr->cc.adm_cp.cp_ready. (this variable is set to 1 by the CP if it placed a
response block in the command channel)
get the block index from dpr->cc.adm_cp.data_return_head
inform the CP, that you received the block by setting
dpr->cc.adm_cp.data_return_head=0 and dpr->cc.adm_cp.cp_ready=0
You can now process the response data.
4.3 Accessing Input, Output, and Diagnostic Data
Once the CP is in operate mode you can access the input, output and diagnostic
data directly in the dual-port ram. Refer to the CP 5613/CP 5614 manual for more
information on how to access this data.
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4.4 Using the CP Interrupt
The CP triggers an interrupt in some situations. The driver can use this interrupt
instead of polling the events. This is, however, optional and is not mandatory.
It is also possible to get interrupts at start and end of each dp cycle if constant scan
time mode is configured in your dp database. You can create such databases only
with Step 7 or NCM PC Edition.
The CP uses the INTA# line of the PCI bus in shareable mode. The used IRQ can be
seen in the PCI configuration register 3Ch.
The interrupt is disabled after startup. The interrupt can be enabled by writing 0x41 to
the configuration register 0x4C. The interrupt can be disabled by writing 0x01 to the
configuration register 0x4C.
After an interrupt is generated, the interrupt must be enabled again. The firmware
also requires an acknowledgment of the interrupt
(dpr->ctr_cpu.C_ack_cp_to_host_int = 0).
The causes of an interrupt are as follows:
• slave data changed
• slave diagnostic data changed
• dp cyle start and end
• new data available in command channel
• fast logic event occurred
See also do_cp_int in ci_dll.c
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
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4.5 Using Fast Logic
The fast logic processing is handled by the firmware. The only action required of the
user is to activate the fast logic by sending the fastlogic_on request through the
command channel.
If a fast logic event occurs, the specified output bits are set by the firmware and the
user is informed by an interrupt if this is enabled. Otherwise, the fast logic events can
be polled in the dual-port RAM.
When using fast logic, make sure that the fast logic output bytes are not overwritten
cyclically.
4.6 Events
Refer to the CP 5613/CP 5614 users manual for information on activating the events.
If an event occurs, an interrupt is generated when data changes ( if enabled).
Development Kit DK-5613 for the CP 5613/CP 5614
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4.7 Setting the Diagnostic Data of the Slave Module
(CP 5614 only)
The diagnostic data of the slave module is set directly using the dual-port-ram
instead of using the command channel.
fill the array dpr->infowatch.slavemod_data.sm_diag.diag_data with your diagnostic
data
set dpr->infowatch.slavemod_data.sm_diag.diag_len with your diagnostic data length
set dpr->infowatch.slavemod_data.sm_diag.diag_state with your diagnostic data state
increment dpr->infowatch.slavemod_data.sm_diag.request to trigger the firmware
before setting another diag request you should wait until dpr-
>infowatch.slavemod_data.sm_diag.result contains the value of ... .request
Development Kit DK-5613 for the CP 5613/CP 5614
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5 LDB File Structure
The CP5613/CP5614 uses a binary configuration file. This file can be exported with
the COM-Profibus NCM PC Edition or Step 7 configuration-tool. This chapter
describes the structure of those files.
The LDB-file consists of several blocks of information. Not all generated bocks are
necessary for a regular operation of the CP5613/CP5614 (see table below).
Grayed fields are constants. Non-grayed fields are calculated.
It is highly recommended to use the COM-Profibus, NCM PC or Step 7 -
generated LDB-file. We cannot guarantee that the master is working correctly
if you use other data, than that tools generates.
Name Description
Version-Block Version information (optional)
System-Block System data block
DP-Block DP Information
FMS-Block (optional)
End-Block (optional)
5.1 Version-Block (optional)
Name Type Description
Block-ID BYTE 0x00
Block-length DWORD length of data-block (without header)
data-block BYTE[] data is not relevant
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5.2 System-Block
Name Type Description
Block-ID BYTE 0x79
Block-length DWORD length of data-block (without header)
busparameter header block Start
parameter-block-
number BYTE 0x01
parameter-block-
version BYTE 0x00
parameter-block-
length WORD 0x0009
local-edit BYTE 0x01
max-master BYTE 0x7e
busparameter-
calculation BYTE 0x00: user-defined
0x01: universal
0x02: fast
0x03: dp
subnet-profile BYTE 0x00
slave-count BYTE number of slaves
busparameter header block End
busparameter block Start
parameter-block-
number BYTE 0x02
parameter-block-
version BYTE 0x00
parameter-block-
length WORD 0x23
hsa BYTE default: 0x7e
master-addr BYTE station-address of master
station-type WORD 0x01
baud-rate WORD 0x00: 9.6kBd
0x01: 19.2 kBd
0x02: 93.75 kBd
0x03: 187.5kBd
0x05: 500 kBd
0x07: 1.5 MBd
0x08: 3 MBd
0x09: 6 MBd
0x0a: 12 MBd
0x0c: 45.45 kBd
redundancy WORD 0x0000
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retry-counter WORD 0x0001
default-SAP BYTE 0x34
network-SAP BYTE 0x00
TSL WORD see EN50170 (Unit: tBit)
TQUI WORD not used
TSET WORD see EN50170 (Unit: tBit)
min.TSDR WORD see EN50170 (Unit: tBit)
max.TSDR WORD see EN50170 (Unit: tBit)
TTR DWORD target rotation time (Unit: tBit)
gap-factor BYTE see EN50170
in_ring_desired WORD 0x01
phys-layer WORD 0x00
busparameter block End
block Start
parameter-block-
number BYTE 0x05
parameter-block-
version BYTE 0x00
parameter-block-
length WORD 0x0004
block End
Equidistance block Start
BlockID BYTE 30
ProfileFeatures WORD Bit 0:=1
Bit 1-15:=0 (reserved)
BlockLength WORD 5 + number of Bytes in AddData
AddData AddData
Equidistance block End
AddData
AddDataID BYTE 0 :Busprofile Version 2.0
AddDataLen WORD Length of Add Data
reserved [63] BYTE
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5.3 DP-Block
Name Type Description
Block-ID BYTE 0x80
Block-length DWORD length of data-block (without header)
Parameter-block Start
parameter-block-
number BYTE 0x01
parameter-block-
version BYTE 0x00
parameter-block-
length WORD 0x0025
CtrPollToResetSta
tLst BYTE 0x01
DataControlTime WORD see EN50170 (Unit: 10 msec)
MasterPollTimeou
t WORD see EN50170 (Unit: 1 msec)
Master2PollTimeo
ut WORD 200
GSD-file name BYTE[14] "CP5412A2.GSD" (not NCM-PC)
reservedWdTimeo
ut WORD see EN50170 (Unit: 10 msec)
reserved BYTE 0
CyclGlobCtrlIdent BYTE see EN50170
MaxMinSlaveInterv
all WORD see EN50170 (Unit: 1 msec)
DPDelayTime WORD 0
NotNormSlaveCo
unt WORD 0x0000
NormSlaveCount WORD number of connected slaves
Parameter-block End
slave blocks slave-block-
[NormSlaveCount] slave-data blocks
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Slave-Block
Name Type Description
parameter-block-
number BYTE 0x02
parameter-block-
version BYTE 0x00
parameter-block-
length WORD length of this Slave-Block
Slv Header Start
slave-header-length WORD 0x002d
slave-address BYTE Station-Address of Slave
norm-slave-key BYTE 0x00
slave-name BYTE[24] Name of Slave
GSD-filename BYTE[14] Name of GSD-Filename (not NCM PC)
min-slave-interval WORD from GSD-File (Unit: 100 usec)
slave-control BYTE see table below
Slv Header End
PRM_DATA Start
parameter-telegram
length WORD inclusive this word
parameter telegram BYTE[] composed from GSD-File
PRM_DATA End
Slave Module List Start
slave-module list
length WORD inclusive this word
output data length BYTE Number of Output-Bytes
input data length BYTE Number of Input-Bytes
Module count BYTE Number of modules
Module-entry module-entry[] module-data
Slave Module List End
CFG_DATA Start
config-data-len WORD inclusive this word
config-telegram BYTE[] composed from GSD-File
CFG_DATA End
reserved BYTE 0x02
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reserved BYTE 0x00
Slave control:
Slave-Activate (always 1)
DPV1ExtraAlarmSAP
DPV1-datatypes used
DPV1 supported
DPV1 alarms supported
Failsafe
new-prm (always 0)
active (always 1)
Module-entry:
Name Type Description
module-entry-
length WORD inclusive this word (0x1E)
module-name BYTE[24] Name of module
output-offset WORD not used
input-offset WORD not used
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5.4 FMS-Block (optional)
Name Type Description
Block-ID BYTE 0x81
Block-length DWORD length of data-block (without header)
(0x00000001)
data-block BYTE[] data is not relevant (0x00)
5.5 End-Block
Name Type Description
Block-ID BYTE 0xFF
Block-length DWORD length of data-block (without header)
data-block BYTE[] data is not relevant
Development Kit DK-5613 for the CP 5613/CP 5614
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6 Glossary
AUTOCLEAR 1. Configuration property of a DP slave - the master changes to the
AUTOCLEAR mode if this slave drops out.
2. This is the same as the DP_CLEAR mode of a DP master, when it
changes to the mode due to the AUTOCLEAR property of a slave.
Bus parameter Bus parameters control the data transmission on the bus - Each
⇒PROFIBUS ⇒node must use bus parameters that match the bus
parameters of other nodes.
Bus segment Part of a ⇒subnet. Subnets can be created using bus segments with
connectivity devices such as repeaters and bridges. Segments are
transparent for addressing.
COM PROFIBUS Configuration tool for defining communications nodes and the bus
parameters.
CP Communications Processor - communications module/network card for
installation in computers or programmable controllers.
CPU Central Processing Unit - here processor of the PC
CPU load Load on the CPU of the PC - here: resulting from DP communication
Data transmission
rate Transmission rate on the bus (unit: bps). A ⇒bus parameter for
⇒PROFIBUS. The data transmission rate used depends on various
conditions such as distance.
DB Here: Database - The local database describes the communications
network from the view of the local system.
Deadlock
When more than one parallel process (here: threads) become blocked (A
waits for B and B waits for A).
Distributed I/Os An input/output module used in a distributed configuration. The
connection between the programmable controller and the distributed I/Os
is established via the ⇒PROFIBUS bus system. For the programmable
controller, the distributed I/Os are no different from local process
inputs/outputs.
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DP Distributed peripheral I/Os, communication protocol for PROFIBUS
complying with EN 50 170 Volume 2.
DP Base Name of the DP programming interface of the CP 5613/CP 5614, in
contrast to the DP Lib interface of the CP 5412 (A2), CP 5611 and
CP 5511.
DP I/O module DP slaves are modular. A ⇐ DP slave has at least one DP I/O module.
DP I/O type DP I/O type identifies a DP I/O module. The following types exist:
• input module
• output module
• input/output module
DP master A ⇒node with master functionality in ⇒PROFIBUS DP -
The DP master
handles the exchange of data with the ⇒DP slaves assigned to it.
DP slave A ⇒ node with slave functions in ⇒ PROFIBUS DP.
DP subnet PROFIBUS subnet in which only ⇒
distributed peripheral I/Os are
operated.
DP subsystem A ⇒ DP master and all ⇒ DP slaves with whic
h the DP master
exchanges data.
DPC1 DP extended by acyclic read and write jobs and alarms between cyclic
DP master and slave.
DPC2 DP extended by connection control and read and write jobs from a non-
cyclic master.
DPRAM Dual-Port Random Access Memory – allows simultaneous access to
one memory area (RAM) by two computer units (CP and CPU).
DP-V1 DP extensions, this includes DPC1 and DPC2
Driver
Software that allows data exchange between application programs and
the ⇒ CP.
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Fast logic Property of the CP 5613/CP
5614: an input value of a slave can be
monitored. When it changes to a specified value, output data of another
slave is set.
FDL Fieldbus Data Link - Layer 2 for ⇒ PROFIBUS
Frame Message from one PROFIBUS node to another.
Frame header A frame header consists of an identifier for the ⇒
frame and the source
and destination address.
Frame trailer A frame trailer consists of a checksum and the end identifier of the ⇒
frame.
FREEZE mode The FREEZE mode is a DP mode in which the process data are acq
uired
at the same time from all (or a group) of DP slaves. The time at which the
data are required is indicated in the FREEZE command (a
synchronization control frame).
Gap update factor A free address area between two active ⇒ nodes is checked cyclically
by the node with the lower ⇒
PROFIBUS address to find out whether or
not another station is requesting to enter the logical ring. The cycle time
for this check is as follows:
gap update factor x target rotation time
Group identifier DP slaves can be ass
igned to one or more groups using a group
identifier. The ⇒
DP slaves can then be addressed by the group identifier
when transferring control frames.
Highest PROFIBUS
address A ⇒ bus parameter for ⇒ PROFIBUS. This specifies the highest ⇒
PROFIBUS address of an active ⇒
node on the PROFIBUS. For passive
nodes, PROFIBUS addresses higher than the HSA are permitted
(possible values: HSA 1 to 126).
HSA Highest Station Address -
one of the bus parameters. Specifies the
highest node address used in the network.
ISO International Standards Organization -
International organization based in
Geneva responsible for formulating general standards particularly in the
area of data transmission.
LAN Local Area Network - local network for direct connection of computers.
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LSB Least Significant Bit
Master An active node on ⇒
PROFIBUS that can send frames on its own
initiative when it is in possession of the token.
Maximum
station delay A ⇒ bus parameter for ⇒ PROFIBUS.
The maximum station delay
(max. TSDR) specifies the longest interval required by a ⇒
node in the
subnet between receiving the last bit of an unacknowledged ⇒
frame and
sending the first bit of the next frame. After sending an unacknowledged
frame, a sender must wait for the max. TSDR to elapse before sending
a
further frame.
Minimum
station delay A ⇒ bus parameter for ⇒ PROFIBUS.
The minimum station delay (min.
TSDR) specifies the minimum time that the receiver of a ⇒
frame must
wait before sending the acknowledgment or sending a new frame. The
min. TSDR tak
es into account the longest interval required by a station in
the subnet for receiving an acknowledgment after sending a frame.
MSAC_C1 "Master Slave Acyclic Class 1" - Name for DPC1 in the DP -
V1 standard
description.
MSAC_C2 "Master Slave Acyclic Class 2" - Name for DPC2 in the DP -
V1 standard
description.
MSB Most Significant Bit
MSCY_C1 "Master Slave cyclic class 1" -
name of the normal DP master operation
in the DP-V1 standard description.
Network A network consists of one or more interconnected ⇒ s
ubnets with any
number of ⇒
nodes. Several networks can exist one beside the other.
For each subnet, there is a common ⇒ node table.
Node A node is identified by a ⇒ PROFIBUS address ⇒ in PROFIBUS.
PC Personal Computer
PG Programming device (industrial PC) belonging to the SIMATIC product
family from Siemens AG used for programming, configuring and in
maintenance and service.
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Process image
The process image is a special memory area in the programmable
controller. At the start of the cyclic program, th
e signal states of the
input modules are transferred to the process input image. At the end of
the cyclic program, the process output image is transferred as the signal
state to the output modules.
PROFIBUS A fieldbus complying with EN 50 170 Vol. 2 (DIN 19245).
PROFIBUS address The PROFIBUS address is a unique identifier of a ⇒
node connected to
a ⇒
PROFIBUS network. To address a node, the PROFIBUS address is
transferred in the ⇒ frame.
PROFIBUS DP PROFIBUS distributed peripheral I/Os. Transmission serv
ices complying
with PROFIBUS EN 50 170 Vol. 2 (DIN E 19245 Part 3) in ⇒
PROFIBUS.
PROFIBUS DP
master A ⇒ node with master functions in PROFIBUS DP.
Protocol Rules governing the transmission of data -
The rules specify not only the
formats of the messages but also the data flow during data transmission.
Reorganization
token ring All the ⇒ masters on ⇒
PROFIBUS form a logical token ring. Within this
token ring, the token is passed on from station to station. If the
transmission of the token is incorrect or
if a master is removed from the
ring, this leads to an error when the token is passed on (the token is not
accepted by this station) and the station is excluded from the ring. The
number of exclusions is counted in the internal Token_error_counter. If
thi
s counter reaches an upper limit value, the logical token ring is then
reorganized.
S7 PLC Abbreviation for a programmable logic controller belonging to the
SIMATIC product family from Siemens AG.
SCOPE PROFIBUS Diagnostic product for ⇒ PROFIBUS, with wh
ich the frames sent on the
⇒ network are detected and analyzed.
Segment Synonym for ⇒ bus segment
Semaphore Wait mechanism for synchronizing several programs, for example in
Windows NT.
Services Services provided by a communication protocol.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 44
Setup time A ⇒ PROFIBUS ⇒ bus parameter -
The setup time specifies the
minimum time between receiving an acknowledgment and sending a new
call.
Sign of life
monitoring A monitoring time that can be set on a ⇒
DP slave to detect failure of the
controlling ⇒DP master.
SIMATIC NET Siemens Network and Communication -
Product range for networks and
network components from Siemens.
Slot time A ⇒ PROFIBUS bus parameter -
The slot time (TSL) is a monitoring
time between a sender sending a ⇒
frame and receiving the
acknowledgment of the receiver.
Subnet A subnet is part of a ⇒ network whose ⇒
bus parameters (for example
⇒
PROFIBUS addresses) must match up. It includes the bus
components and all the connected stations. Subnets can be
interconnected, for example using ⇒ gateways, to form a network .
A ⇒ system consists of several subnets each with a unique ⇒
subnet
number. A subnet consists of several ⇒ nodes with unique ⇒
PROFIBUS addresses.
Subnet number A ⇒ system consists of several ⇒
subnets with unique subnet
numbers.
SYNC mode The SYNC mode is a DP mode in which several or all ⇒
DP slaves
transfer data to their process outputs at a certain time. The time at which
the data is transferred is indicated in the SYNC command (a control
command for synchronization).
System The entire electrical equipment belonging to a plant/system including
programmable controllers, devices for operator monitoring and control,
bus systems, field devices, drives, supply lines.
Target rotation
time A ⇒ PROFIBUS ⇒ bus parameter.
The token is the right to send for a
node on PROFIBUS. A node compares the actual token rotation time it
has measured with the target rotation time and depending on the result
can then send high or low priority frames.
Thread A subprocess running parallel.
Watchdog A mechanism for monitoring operability of nodes.
Development Kit DK-5613 for the CP 5613/CP 5614
Development Kit DK-5613 for the CP 5613/CP 5614
C79000-G8976-C135-06 45
