Gambro Ak 200

Page * A K 2 0 0 S E R R O R M E S S A G E *

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* A K 2 0 0 S E R R O R M E S S A G E E X P L A N A T I O N S * LAST EDITED: Date: 10-11-17 15:30 Author: Seolek Revision: 126 ========== Error messages from AK 200 S are divided into four different error levels depending on the possibility to recover or restart. 1. Unconditional technical error. No restart or recovery attempts. This will be used where patient safety cannot be guaranteed in presence of the error. This could be caused by some serious hardware error. 2. Conditional technical error. Continued treatment is allowed given that a certain condition is fulfilled or a confirmation has been made. These errors are marked with "/" before the error code, "/FCN 5.02 002". 3. Recoverable technical error. A number of restart attempts will be made. If this is unsuccessful an unconditional or conditional technical error will appear. These errors are marked with "*" before the error code, "*FCN 8.09 001". 4. Silent technical error. A technical error that does not affect continued treatment; it will not activate the technical

error key or the buzzer. Silent technical errors are only stored in the diagnostic error buffer. If this is unsuccessful an unconditional or conditional technical error will appear. These errors are marked with "!" before the error code, "!FCN 1.00 018". The letters [F,T,D,S] can follow the names of the functions. [F,.....] means that the error codes can appear during the function checks. [.,T,...] means that the errors can appear during treatment. [...,D,.] means that the errors can appear during rinse or disinfection. [.....,S] means that the errors can appear during service mode. Look in the end of file for: AK 200 S attention explanation. AK 200 S incorrect operation.

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LED STATUS MESSAGES TIME DISPLAY ERROR MESSAGES/MAIN BOARD LED STATUS CPU OB IN BM200 / BM202. 1. CPU INIT -------- "FCH" is displayed during start-up. BM main board LED status indicates the test that is in progress. "Exy" is displayed when a test fails. BM main board LED status indicates the test that failed. The correspondence between time display and main board LED indication will be: LED indicator V28, V30, V31 = Least significant digit on time display (y). V25, V26, V27 = Most significant digit on time display (x). V23, V24 = Not significant on time display. NOTE. The appearance of the first LED status code 11000000 may, besides the status explained below, also be considered as a 'CPU OB is executing' indication. Also note, that it is advisable NOT to interfere with the machine during start up test other than when explicitly advised to do so.(Non-relevant error messages may occur) CPU OB INITIAL TESTS Error Diode status (V 23 - 28, 30, 31) ----- --------------- VV VVV VVV 2 2 2 2 2 2 3 3 3 4 5 6 7 8 0 1

/ 1 1 1 1 1 1 1 1 - FPGA loaded / 0 1 1 1 1 1 1 1 - Execution started (CPU188) "E54" / 1 0 1 1 1 1 1 1 - CPU test / 1 1 0 1 1 1 1 1 - Chip select init "E56" / 1 1 1 0 1 1 1 1 - NMI error "E10" / 1 1 1 1 1 0 1 1 - RAM test / 1 1 1 1 1 1 0 1 - Wait for safe bus reset "E12" / 1 1 1 1 1 1 1 0 - ROM test / 1 1 1 1 1 1 1 1 - Operating system start. Codes --11nnnn [E60]-[E67],[E70-E77] are reserved for use within CPU OB task AINIT.PLM. ALL tests passed main board LED status should be 00000000 and will be output in AINIT.


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Error Diode status --------------------- VV VVV VVV 2 2 2 2 2 2 3 3 3 4 5 6 7 8 0 1

/ 0 0 1 0 0 0 0 0 - CPU OB initialization task start. "E61" / 0 0 0 1 0 0 0 0 - CPU OB error logger task start. / 0 0 0 0 1 0 0 0 - I2C bus initialization "E78" / 0 0 0 0 0 1 0 0 - CPU OB communication task start. "E63" / 1 0 0 0 0 1 0 0 - CPU P communication initialization. "E64" / 0 1 0 0 0 1 0 0 - CPU F communication initialization. / 0 0 1 0 0 1 0 0 - CPU F recovery initialization. / 0 0 0 1 0 1 0 0 - System data transfer start / 0 0 0 0 0 0 1 0 - CPU OB tasks start up. / 0 0 0 0 0 0 0 0 - CPU OB initialization task end. LED status 00000000 indicate completed/passed basic and AINIT tests. "FCh", however, will continue to be shown on time display until all functional tests of the monitors are completed. 2. SUPERVISORY TASK ---------------- In some cases, an E-code in the range E80-EFF may show up on the time display. Such a code indicates an error condition where it might not be possible to route the message the normal way to the information display. Error ----- This error codes are now saved as Mail-errors: TSK E__ = task under run "E80" is supervisory low task (idle-task) under run. "E81" is ADC task under run. "E82" is AOTRC task under run. "E83" is ABTRC task under run. "E84" is FCN 0 task under run. "E85" is FCN 1 task under run. "E86" is FCN 2 task under run. "E87" is COM task under run. "E88" is INFO DISP task under run. (FCN309) "E89" is FCN 3 task under run. "E8A" is recovery task under run. (FCN827) "E8B" is AATRC task under run.

"E9C" is out of SRB in CPU OB "E9D" is out of SNR in CPU OB

"EA0" AOTRC transition controller time-out "EA1" ABTRC transition controller time-out "EA2" AO2TRC transition controller time-out "EA3" AOATRC transition controller time-out

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3. BOOT ERRORS ----------- b.o.O. Boot mode indicating that all CPU's are empty. First d.p. ind OB second P and third F. b.o.O Boot mode indicating that CPU's OB and P are empty. b.o O. Boot mode indicating that CPU's OB and F are empty. b.o O Boot mode indicating that CPU OB is empty. b o.P. Boot mode indicating that CPU's P and F are empty. b o.P Boot mode indicating that CPU P is empty. b o F. Boot mode indicating that CPU F is empty. b o 5 Boot mode indicating that boot is requested from strap. b o o Boot mode indicating that boot is requested from operator (string in memory). b E O CRC error in OB boot. b E 1 CRC error in P boot. b E 2 CRC error in F boot. bS3 CPU OB is not able to send status request to CPU P. br3 No response from CPU P on status request. bE3 Error in the received response from CPU P. bS4 CPU OB is not able to send status request to CPU F. br4 No response from CPU F on status request. bE4 Error in the received response from CPU F. bS5 CPU OB is not able to send boot request to CPU P. br5 No response from CPU P on boot request. bE5 Error in the received response from CPU P. bS6 CPU OB is not able to send boot request to CPU F. br6 No response from CPU F on boot request. bE6 Error in the received response from CPU F. bS7 CPU OB is not able to send go request to CPU P. br7 No response from CPU P on go request. bE7 Error in the received response from CPU P. bS8 CPU OB is not able to send go request to CPU F. br8 No response from CPU F on go request. bE8 Error in the received response from CPU F. Diode status (V31 V32) for CPU F in FM202 during boot: (IC91: Version P022007.102 and above) VV 3 3 1 2 0 0 - FPGA not loaded 1 1 - LFSELECT waiting for FCOM to initiate 1 0 - Reset synchronization done, waiting for access_domain command to finish 0 0 - Waiting for command from CPU OB 0 1 - Request version command received


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MAIN BOARD LED STATUS FOR CPU P IN BM200 / BM202. ------------------------------------------------------------------------------------- Diode status (V1 - V8) ------------------- VV VVV VVV 1 2 3 4 5 6 7 8

1 1 1 1 1 1 1 1 - FPGA loaded 0 1 1 1 1 1 1 1 - Execution started (CPU188) 1 0 1 1 1 1 1 1 - CPU test 1 1 0 1 1 1 1 1 - Chip select init 1 1 1 0 1 1 1 1 - NMI error 1 1 1 1 0 1 1 1 - Video RAM test 1 1 1 1 1 0 1 1 - RAM test 1 1 1 1 1 1 0 1 - Wait for safe bus reset 1 1 1 1 1 1 1 0 - ROM test 1 1 1 1 1 1 1 1 - Operating system start. Any errors in the tests above will halt the execution of CPU P. The time display will show "E63", indicating that CPU OB is unable to communicate with

CPU P. Any errors in the tests below will not halt the execution, instead they will be sent as error

codes to CPU OB. Diode status --------------- VV VVV VVV 1 2 3 4 5 6 7 8 0 0 1 0 0 0 0 0 - CPU P initialisation task start. 0 0 0 1 0 0 0 0 - CPU P function initialisation. 0 0 0 0 1 0 0 0 - CPU P;Q communication initialisation 0 0 0 0 0 1 0 0 - CPU P communication task start. 0 0 0 0 0 0 1 0 - CPU P LCD task (bmdisp) start up. 0 0 0 0 0 0 0 1 - CPU P supervision tasks start up wait. 0 0 0 0 0 0 0 0 - CPU P initialisation task end (supervision tasks started). LED status 00000000 indicate completed/passed basic and BINIT tests.

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MAIN BOARD LED STATUS FOR CPU F IN FM202. ----------------------------------------------------------------------- Diode status (V 38 - V 31) ------------------- VV VVV VVV 3 3 3 3 3 3 3 3

8 7 6 5 4 3 2 1 1 1 1 1 1 1 1 1 - FPGA loaded 0 1 1 1 1 1 1 1 - Execution started (CPU188) 1 0 1 1 1 1 1 1 - CPU test 1 1 0 1 1 1 1 1 - Chip select init 1 1 1 0 1 1 1 1 - NMI error 1 1 1 1 1 0 1 1 - RAM test 1 1 1 1 1 1 0 1 - Wait for safe bus reset 1 1 1 1 1 1 1 0 - ROM test 1 1 1 1 1 1 1 1 - Operating system start. E R R O R L O G G E R M E S S A G E S Listed below are error message explanations for error information handled the normal way via the system error logger and which might be read on the information display entering the error logger menu. System messages. SYS CONF 000 = No system request blocks (SRB:s) available SYS CONF 001 = No system memory request blocks (SMR:s) available SYS CONF 002 = Illegal internal MTOS call: X_OVIN SYS CONF 003 = Illegal internal MTOS call: X_OVOUT SYS CONF 004 = Illegal internal MTOS call: X_GET_BLOCK SYS CONF 005 = Illegal internal MTOS call: X_FREE_BLOCK SYS CONF 006 = Illegal internal MTOS call: X_ALLOC_8087 SYS INTR 000 = Divide error exception interrupt SYS INTR 001 = Single step interrupt SYS INTR 002 = Non=maskable interrupt SYS INTR 003 = Breakpoint interrupt SYS INTR 004 = Overflow exception interrupt SYS INTR 005 = Array bounds exception interrupt SYS INTR 006 = Unused opcode exception interrupt SYS INTR 007 = Escape opcode exception interrupt SYS INTR 008 = Reserved vector interrupt SYS INTR UNX = Unexpected vector interrupt SYS REAL 000 = Floating point illegal opcode SYS REAL 001 = Floating point real overflow SYS REAL 002 = Floating point integer overflow


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CPU OB task errors TSK Exx = supervisory task A "Exx" errors above Transition controller messages. TzA Pxxx ttt = Process nr xxx out of range in transition test. TzB Pxxx yyy = State nr yyy out of range. TzC Pxxx ttt = Test nr ttt out of range in transition test. TzD P000 xxx = Process state shadow table corrupt in process xxx. TzE Pxxx yyy = Process attempt to assume non-defined state yyy. TzF Pxxx yyy = State yyy attempt to control process at own or higher level. TzG Pxxx yyy = State yyy attempt to control non-defined process. TzH Pxxx yyy = State yyy attempt to control non-defined function. TzI Pxxx yyy = State yyy attempt to duplicate process control. TzJ Pxxx yyy = State yyy attempt to duplicate function control. TzK Pxxx yyy = State yyy attempt to reference non-defined event control. TzL Pxxx yyy = State yyy attempt to set non-defined event mode. TzM P000 fff = Non-controlled function fff. TzN Pxxx yyy = State yyy attempt to set nonexistent output cross=reference. TzO jjjj iii = Cross reference iii references non existent logical output jjjj. TzP P000 fff = Function shadow table corrupt in function fff. TzQ jjjj iii = Output shadow table corrupt, cross reference iii (Index in logical declaration), output jjjj (index in *.lit file). xxx = Process number yyy = State number z = Transition controller identifier [O,B,P,Q,F] CPU OB operating system errors AOS INIT 000 = SVC ERROR : Communication task start. AOS INIT 001 = SVC ERROR : AD=converter task start. AOS INIT 002 = SVC ERROR : AOTRC task start. AOS INIT 003 = SVC ERROR : ABTRC task start. AOS INIT 004 = SVC ERROR : Function task 0 start. AOS INIT 005 = SVC ERROR : Function task 1 start. AOS INIT 006 = SVC ERROR : Function task 2 start. AOS INIT 007 = SVC ERROR : Supervisory high priority task start. AOS INIT 008 = SVC ERROR : Supervisory low priority task start. AOS INIT 009 = SVC ERROR : Information display task start. AOS INIT 010 = SVC ERROR : Flash Memory start. AOS INIT 011 = RIO ERROR : CPU F Power=up/Recovery string call. AOS INIT 012 = SVC ERROR : Recovery task start. AOS INIT 013 = SVC ERROR : Attention traco task start. AOS INIT 014 = SVC ERROR : No recovery data from CPU F.(Time out). AOS INIT 015 = SVC ERROR : OPCOM task start. AOS INIT 016 = SVC ERROR : BVSCOM task start. AOS INIT 017 = SVC ERROR : PROM version receive error from OP. AOS INIT 018 = Removed AOS INIT 019 = Removed

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CPU P operating system errors BOS INIT 000 = SVC ERROR : Communication task start. BOS INIT 002 = SVC ERROR : Logging task start. BOS INIT 003 = SVC ERROR : BTRC task start. BOS INIT 004 = SVC ERROR : Function task 0 start. BOS INIT 005 = SVC ERROR : Function task 1 start. BOS INIT 006 = SVC ERROR : Function task 2 start. BOS INIT 007 = SVC ERROR : Supervisory high priority task start. BOS INIT 008 = SVC ERROR : Supervisory low priority task start. BOS INIT 009 = SVC ERROR : Information display task start. BOS INIT 010 = SVC ERROR : Function task 3 start. BOS INIT 012 = SVC ERROR : Recovery task start. BOS INIT 015 = SVC ERROR : LCD task start or not present. BOS INIT 016 = SVC ERROR : AD converter task start. BOS INIT 017 = SVC ERROR : FRN Communication task start. BOS INIT 018 = SVC ERROR : PROM version receive error from FRN. BOS INIT 019 = SVC ERROR : DUO prot Communication task start. BOS INIT 020 = SVC ERROR : PROM version receive error from Select prot. Bitbus communication errors. (CPU OB and CPU F). BIT INTR 000 = Bitbus protocol error in FIFO CPU P to CPU OB. The message did not end with command byte = 0. The message is discarded. BIT INTR 001 = Bitbus protocol error in FIFO CPU C to CPU F. The message did not end with command byte = 0. The message is discarded. Flow generator communication errors. (CPU F). FLG ERR 001 = Flow generator not responding. FLG INTR 002 = Flow generator program restart error. FLG INTR 003 = Flow generator NMI restart error. FLG INTR 004 = Flow generator unused op code error. FLG INTR 005 = Flow generator CPU error. FLG INTR 006 = Flow generator ram error. FLG INTR 007 = Flow generator Flash Memory error. FLG INTR 008 = Flow generator dialyzer pressure out of limit. Removed in program ver. 5.00. FLG INTR 009 = Flow generator pump motor in overload. FLG INTR 010 = Flow generator pump motor out overload. FLG INTR 011 = Flow generator AD offset out of limit. FLG INTR 012 = Flow generator AD reference out of limit. FLG INTR 013 = Flow generator high pressure guard out of limit. Removed in program ver. 5.00. FLG INTR 023 = Flow generator HPG below low pressure limit in Functional Check. FLG INTR 028 = Flow generator PD below low pressure limit in Functional Check. FLG INTR 033 = Flow generator HPG above high pressure limit in Functional Check. FLG INTR 038 = Flow generator PD above high pressure limit in Functional Check. FLG INTR 123 = Flow generator HPG below low pressure limit in pre treatment. FLG INTR 128 = Flow generator PD below low pressure limit in pre treatment. FLG INTR 133 = Flow generator HPG above high pressure limit in pre treatment. FLG INTR 138 = Flow generator PD above high pressure limit in pre treatment. FLG INTR 223 = Flow generator HPG below low pressure limit during taration in pre treatment. FLG INTR 228 = Flow generator PD below low pressure limit during taration in pre treatment. FLG INTR 233 = Flow generator HPG above high pressure limit during taration in pre treatment. FLG INTR 238 = Flow generator PD above high pressure limit during taration in pre treatment.


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FLG INTR 323 = Flow generator HPG below low pressure limit in treatment. FLG INTR 328 = Flow generator PD below low pressure limit in treatment. FLG INTR 333 = Flow generator HPG above high pressure limit in treatment. FLG INTR 338 = Flow generator PD above high pressure limit in treatment. FLG INTR 423 = Flow generator HPG below low pressure limit during taration in treatment. FLG INTR 428 = Flow generator PD below low pressure limit during taration in treatment. FLG INTR 433 = Flow generator HPG above high pressure limit during taration in treatment. FLG INTR 438 = Flow generator PD above high pressure limit during taration in treatment. FLG INTR 523 = Flow generator HPG below low pressure limit in rinse or post chemical rinse. FLG INTR 528 = Flow generator PD below low pressure limit in rinse or post chemical rinse. FLG INTR 533 = Flow generator HPG above high pressure limit in rinse or post chemical rinse. FLG INTR 538 = Flow generator PD above high pressure limit in rinse or post chemical rinse. FLG INTR 623 = Flow generator HPG below low pressure limit in drain. FLG INTR 628 = Flow generator PD below low pressure limit in drain. FLG INTR 633 = Flow generator HPG above high pressure limit in drain. FLG INTR 638 = Flow generator PD above high pressure limit in drain. FLG INTR 723 = Flow generator HPG below low pressure limit in heat disinfection. FLG INTR 728 = Flow generator PD below low pressure limit in heat disinfection. FLG INTR 733 = Flow generator HPG above high pressure limit in heat disinfection. FLG INTR 738 = Flow generator PD above high pressure limit in heat disinfection. FLG INTR 823 = Flow generator HPG below low pressure limit in chemical disinfection. FLG INTR 828 = Flow generator PD below low pressure limit in chemical disinfection. FLG INTR 833 = Flow generator HPG above high pressure limit in chemical disinfection. FLG INTR 838 = Flow generator PD above high pressure limit in chemical disinfection. FM operating system errors. DOS INIT 000 = Error in calling MTOS. DOS INIT 001 = SVC ERROR : AD-converter task start. DOS INIT 002 = SVC ERROR : Fluid TRC task start. DOS INIT 003 = SVC ERROR : Function task 0 start. DOS INIT 004 = SVC ERROR : Function task 1 start. DOS INIT 005 = SVC ERROR : Function task 2 start. DOS INIT 006 = SVC ERROR : Communication task start. DOS INIT 007 = SVC ERROR : Supervisory high task start. DOS INIT 008 = RIO ERROR : CPU F Power-up/Recovery string call. DOS FCN0 000 = Error in calling MTOS. DOS FCN1 000 = Error in calling MTOS. DOS FCN2 000 = Error in calling MTOS.

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FM test program errors. RAM ERR 000 = Ram error from CPU F. PRM ERR 000 = Flash Memory error from CPU F. PRM ERR 001 = Flash Memory address 20000 error from CPU F. PRM ERR 002 = Flash Memory address E0000 error from CPU F. FCH RAM 000 = Ram error from CPU F. FCH PROM 002 = Flash Memory address 20000 error from CPU F. FCH PROM 00E = Flash Memory address E0000 error from CPU F. Function messages. FCN x.xx yyy = Function error message x.xx = Issuing functions number) yyy = Function error type, application specific, although 000 reserved for case ptr error) FCN 1.00, AD Com P Q FUNCTION (CPU P) FCN 1.00 000 = Removed FCN 1.00 001 = Removed FCN 1.00 002 = Removed FCN 1.00 003 = Removed FCN 1.00 004 = Removed FCN 1.00 005 = Removed FCN 1.00 006 = Removed FCN 1.00 007 = Removed FCN 1.00 008 = Removed FCN 1.00 010 = Case error. FCN 1.00 011 = Error in receiving RIO. FCN 1.00 012 = Error in transmitting RIO. FCN 1.00 013 = Acknowledge time out (10 resends each 800ms) in set mode. FCN 1.00 014 = Acknowledge time out in program version requsest. FCN 1.00 015 = DIVA response from Q is not correct within 2 sec FCN 1.00 016 = TAVA response from Q is not correct within 2 sec !FCN 1.00 017 = Last SafeBus Reset was caused by Q: missing Acknowledge (silent). !FCN 1.00 018 = Last SafeBus Reset was caused by Q: error in Heart Beat (silent). (Silent errors are only stored in the diagnostic error buffer) FCN 1.00 2xy = 2 is the logical bus number. x is the sensor: y is type of error:

0 = AD 0 = Reply timeout 1 = C2G 1 = ACK 2 = C1G - 3 = BLD 3 = CRC 4 = SAG 4 = Type 5 = PDI 5 = Addr 6 = AUX 6 = Offset 7 = AUX 1 7 = Scale A = Verification B = AD overflow C = AD busy (no EOC recived) D = Division by zero E = Measured AD-offset out of limits F = Measured AD-reference out of limits G = Overflow in conversion calculation (result>16 bits) H = 12V supply (Q12VS/) out of range


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Fluid error function. (CPU P). FCN 1.01 000 = Case error. The program is not working properly. FCN 1.01 001 = Conductivity set error. FCN 1.01 002 = Division by zero or overflow. FCN 1.01 003 = PD AD overflow error. FCN 1.01 004 = TEMP AD overflow error. FCN 1.01 005 = Removed. Previously: COND AD overflow error. FCN 1.01 006 = Bicarbonate constant comparation error. Protective system and CPU OB differ in constants. FCN 1.01 007 = Removed. Previously: Communication error BiCart Select FCN 1.01 008 = BiCart Select Protective Pump node volume not calibrated [F] Some possible explanations why the error has occurred: * BiCart Select Protective Pump node volume not calibrated. * Program in the BiCart Select Protective Pump node is exchanged. FCN 1.01 009 = BiCart Select Protective system level detector not calibrated [F] Some possible explanations why the error has occurred: * BiCart Select Protective system level detector not calibrated. * Program in the BiCart Select Protective Pump node is exchanged. FCN 1.01 010 = DiaScan Protective system sodium dose over max limit. FCN 1.01 011 = DiaScan Protective system sodium dose under min limit. FCN 1.01 012 = DiaScan Protective system conductivity step out of limit. Info display function. (CPU P). FCN 1.02 001 = Removed. FCN 1.02 002 = Removed. FCN 1.02 003 = Removed. FCN 1.02 004 = Removed. FCN 1.02 005 = Removed. FCN 1.02 006 = LCD CPU F. Register test error FCN 1.02 007 = LCD CPU F. Flash Memory CRC test failure FCN 1.02 008 = LCD CPU F. RAM test failure FCN 1.02 009 = LCD CPU F. Display RAM test failure. *FCN 1.02 010 = Error sending information display data to LCD task. LCD task uses the graphics controller on the BM board. *FCN 1.02 011 = Unknown error when sending information display data to IT expansion board. FCN 1.02 012 = Too many errors of type 020, 021, 022, or 023 detected when sending information display data to IT expansion board; either 3 errors within 5 minutes or more than 9 errors total. *FCN 1.02 013 = OS kernel error when sending information display data to IT expansion board. *FCN 1.02 014 = Unknown error when receiving reply from IT expansion board. FCN 1.02 017 = Missing video controller during start-up. IT expansion board connection was not established, due to no response, or IT expansion board does not support the display function. But the video controller on the BM board is not responding, so information display is impossible. FCN 1.02 018 = The S/W version extracted from the IT expansion board is not compatible with the current version of AK200S. FCN 1.02 019 = One or more of the buffers used to save information display data is too small. The saved data is used to restore the display when the IT expansion board has been reset. The S/W must be reconfigured with larger buffers and rebuilt. !FCN 1.02 020 = Error when sending information display data to IT expansion board. A NAK was received from IT expansion board, (the message was not acknowledged), meaning that there was a low-level checksum error in the data, or that the DisplayServer task in the IT expansion board was not ready to receive the data.

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!FCN 1.02 021 = Error when sending information display data to IT expansion board. The send timed-out, there was no acknowledge from IT expansion board. This may be due to faulty connection, or IT expansion board failure. !FCN 1.02 022 = Error when sending information display data to IT expansion board. There is no free buffer to use, the IT expansion board is not reading the messages fast enough. This may be due to faulty connection, or IT expansion board failure. !FCN 1.02 023 = Error when sending information display data to IT expansion board. The DisplayServer task in the IT expansion board received invalid data (data not intact, or CRC error) and sent a reply with the error back to the information display task in CPUP. Buzzer/loudspeaker function. (CPU P). Valid for BM CPU board K19720 version 003 and lower. FCN 1.03 000 = Case error. The program is not working properly. FCN 1.03 001 = CPU P buzzer (H1) test error.

This error code can be a result of another technical error that disturbs the buzzer test. /FCN 1.03 002 = CPU OB buzzer (H2) test error. Possible explanation:

There may be a bad connection to X0VC from the FM power distribution board FCN 1.03 003 = Buzzer already on even before buzzer test. Check microphone or comparator. Buzzer/loudspeaker function. (CPU P). Valid for BM CPU board K19720 version 005 and higher. FCN 1.03 000 = Case error. The program is not working properly. FCN 1.03 001 = CPU P buzzer (H2) test error.

This error code can be a result of another technical error that disturbs the buzzer test. /FCN 1.03 002 = CPU OB buzzer (H1) test error. Possible explanation:

There may be a bad connection to X0VC from the FM power distribution board FCN 1.03 003 = Buzzer already on even before buzzer test. Check microphone or comparator. Level detector function. (CPU P). FCN 1.04 000 = Case error. The program is not working properly. FCN 1.04 001 = Sync not toggled from CPU OB. FCN 1.04 002 = Removed. FCN 1.04 003 = Reset of receiver failed. FCN 1.04 004 = Removed. FCN 1.04 005 = Removed. FCN 1.04 006 = Removed. FCN 1.04 007 = Wrong number of pulses in test burst. FCN 1.04 008 = Wrong number of pulses in normal burst.


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Priming detector function. (CPU P). FCN 1.05 000 = Case error. The program is not working properly. FCN 1.05 001 = Removed FCN 1.05 002 = Removed FCN 1.05 003 = Removed FCN 1.05 004 = Removed FCN 1.05 005 = Invalid low DAC value. Not inside PROM limit. FCN 1.05 006 = Removed FCN 1.05 007 = Removed FCN 1.05 008 = Removed FCN 1.05 009 = Priming detector can not sense blood during T1 test. FCN 1.05 011 = Removed FCN 1.05 012 = Removed FCN 1.05 014 = Removed FCN 1.06, BLOOD PUMP FUNCTION (CPU P) Purpose: Please also refer to the description of FCN 5.00 and FCN 5.01. * Checks the different ways to turn off the blood pumps during the function check. * Checks if the blood pumps have been rotating so much that the priming must have been completed. * Turns off the blood pumps if the protective system detects certain alarms during treatment. FCN 1.06 000 SOFTWARE ERROR [F,T,D,S] Case error. The program is not working properly. FCN 1.06 001 BLOOD PUMP RUNNING WHILE SAFE BUS ALARMING ERROR [F]

General description of conditions for occurring: The blood pump(s) were running during function test even if the safe bus was set in alarm mode. Technical description of conditions for occurring: The safe bus was set in alarm mode. Current should NOT flow through it. The relay K3 on the BM CPU board should be deactivated and the supply voltage for the blood pumps R24V should be 0V. No other electronic signals tried to stop the blood pump. The protective system detected that at least one of the blood pumps were rotating during more than 1.6s. Some possible explanations why the error has occurred: * The relay K3 on the BM CPU board is broken.

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FCN 1.06 002 DOUBLE PUMP STOP WHILE SAFE BUS NOT ALARMING ERROR [F] General description of conditions for occurring: At least one of the blood pumps were not running during function test when the safe bus was NOT set in alarm mode. Technical description of conditions for occurring: The safe bus was NOT set in alarm mode. Current should flow through it. The relay K3 on the BM CPU board should be activated and the supply voltage for the blood pumps R24V should be 24V. The protective system could not detect that both blood pumps were rotating during 6.8s. Some possible explanations why the error has occurred: * The arterial blood pump is broken. * The venous blood pump is broken. * Some of the electronics on the arterial blood pump distribution board are broken. * Some of the electronics on the venous blood pump distribution board are broken. * The relay K3 on the BM CPU board is broken. * The mono stable multi vibrator IC 85 on the BM CPU board is broken. * The protective system resets the mono stable multi vibrator IC 85 on the BM CPU board. * The blood pump cover sensor is broken. * The blood pump overload sensor is broken. * Some cables are broken or not connected. * The protective system detection of the blood pump rotation is broken. FCN 1.06 003 SINGLE PUMP STOP WHILE SAFE BUS NOT ALARMING ERROR [F] General description of conditions for occurring: The arterial blood pump was not running during function test when the safe bus was NOT set in alarm mode. Technical description of conditions for occurring: The safe bus was NOT set in alarm mode. Current should flow through it. The relay K3 on the BM CPU board should be activated and the supply voltage for the blood pumps R24V should be 24V. The protective system could not detect that the arterial blood pump was rotating during 6.8s. Some possible explanations why the error has occurred: * The arterial blood pump is broken. * Some of the electronics on the arterial blood pump distribution board is broken. * The relay K3 on the BM CPU board is broken. * The mono stable multi vibrator IC 85 on the BM CPU board is broken. * The protective system resets the mono stable multi vibrator IC 85 on the BM CPU board. * The blood pump cover sensor is broken. * The blood pump overload sensor is broken. * Some cables are broken or not connected. * The protective system detection of the blood pump rotation is broken.


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FCN 1.06 004 BLOOD PUMP FREQUENCY ERROR [F] General description of conditions for occurring: At least one of the blood pumps were running during function test while none of them has

got any input frequency. Technical description of conditions for occurring: The frequencies that tells the blood pumps to run were turned off.

No other electronic signals told the blood pumps to stop. The protective system detected that at least one of the blood pumps was rotating during 8.6s.

Some possible explanations why the error has occurred: * Some of the electronics on the venous blood pump distribution board is broken. * Some of the electronics on the arterial blood pump distribution board is broken. FCN 1.06 005 BLOOD PUMP ENABLE ERROR [F] General description of conditions for occurring: At least one of the blood pumps was running during function test while CPU OB had

commanded them to stop. Technical description of conditions for occurring: The protective system detected that at least one of the blood pumps were rotating during 2.6s. Some possible explanations why the error has occurred: * Some of the electronics on the venous blood pump distribution board is broken. * Some of the electronics on the arterial blood pump distribution board is broken. * The IC 46 or Q 9 on the BM CPU board is broken. FCN 1.06 006 BLOOD PUMP TRIG ERROR [F] General description of conditions for occurring: At least one of the blood pumps was running during function test while CPU OB tried to stop them. Technical description of conditions for occurring: CPU OB did not trig the mono stable multi vibrator IC 85 on the BM CPU board.

The protective system detected that at least one of the blood pumps were rotating during 6.6s. Some possible explanations why the error has occurred: * The mono stable multi vibrator IC 85 on the BM CPU board is broken. * The relay K3 on the BM CPU board is broken. Safety guard function. (CPU P). FCN 1.07 000 = Case error. The program is not working properly. FCN 1.07 001 = Safety guard pressure AD overflow error. Heater function. (CPU P). FCN 1.08 000 = Function moved. Is now included in FCN100.

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EEPROM control function, FM protective system. (CPU P). FCN 1.09 = Function moved. Is now included in FCN100. Watch-dog driver function. (CPU P). FCN 1.10 = Function deleted. Watch-dog driver function. (CPU C). FCN 1.11 = Function deleted. Direct valve function. (CPU P). FCN 1.12 = Function deleted. Direct valve function. (CPU C). FCN 1.13 = Function deleted. Clamp function. (CPU P). FCN 1.14 000 = Case error. The program is not working properly. FCN 1.14 001 = Venous clamp should not be open error. FCN 1.14 002 = Arterial clamp should not be open error. FCN 1.14 003 = Venous clamp should not be closed error. FCN 1.14 004 = Arterial clamp should not be closed error. EEPROM control function, BM protective system, main. (CPU P). FCN 1.15 000 = Case error. The program is not working properly. The remaining error messages is built according to: FCN 1.15 4XY where 4 = current I2C-bus, CPU P I2C-bus. X = current EEPROM address. Address EEPROM

0 MAIN BOARD CPU P, level detector, priming detector and concentrate presets. Y = error type:

0 EEPROM acknowledge or CRC verification error. 1 EEPROM header verification error. 2 Parameter validation error. Conversion function. (CPU P). FCN 1.16 000 = Case error. The program is not working properly. Service strap function (CPU P). FCN 1.17 000 = Case error. The program is not working properly.


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FCN 1.18, BLOOD LEAK FUNCTION (CPU P) Purpose: * The blood leak transmitter sends light to the blood leak receiver. If the receiver

detects too little light during the function checks, then an attention is given. * If the receiver detects too little light during treatment, then a blood leak alarm is given. * Resets the blood leak alarm when the operator presses the blood leak key. * Checks that a blood leak can be detected by reducing the light for 7s during the function

checks and for 7s every 5 minutes during treatment. FCN 1.18 000 SOFTWARE ERROR [F,T,D,S] Case error. The program is not working properly. FCN 1.18 001 BLOOD LEAK SENSOR TEST "REDUCED LIGHT" FAILED [F,T,D] General description of conditions for occurring: The blood leak receiver detected too much light when the blood leak transmitter was reduced. Technical description of conditions for occurring: The blood leak transmitter was reduced to approximately 75%. Wait 7s. QRI(QI_BLOOD$LEAK) < 95. (QRI(QI_BLOOD$LEAK) = 0 when the fluid is completely transparent and it is about 120 when the fluid is completely dark.) Some possible explanations why the error has occurred: * Incorrect blood leak detector calibration. * The blood leak receiver is broken. * The A/D system is broken. * The blood leak transmitter was never reduced. Some hints of what to do if the error occurs: Check the blood leak detector calibration. FCN 1.18 002 BLOOD LEAK AD OVERFLOW General description of conditions for occurring: The error code has been removed. Some possible explanations why the error has occurred: * Signal to AD system to high. ( > 60 mV.) * Resistor R5 on blood leak detector board to big, this will cause a signal that is to high for the

AD converter. Re-calibrate. * Blood leak sensor partially filled. The light beam was reflected in the fluid surface. * Strong infra red ambient light. * AD converter is not working properly. FCN 1.18 003 CPU OB IS NOT RESPONDING ON BLOOD LEAK DETECTOR ALARM General description of conditions for occurring: The error code has been removed.

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FCN 1.18 004 BLOOD LEAK TEST ERROR DURING FUNCTION CHECK General description of conditions for occurring: The error code has been removed. The detector was not able to see that the infra red beam was lit. Technical description of conditions for occurring: QRI(QI_BLOOD$LEAK) > PW(EPW_BLOOD$LEAK$ON) during test. Some possible explanations why the error has occurred: * Dirty blood leak detector. * The blood leak detector was not filled with fluid when this test was done. * Infra red diode not working properly. * Aborted heat disinfection might cause this message, due to a slight thermal change in the photo transistor. FCN 1.18 005 BLOOD LEAK TEST ERROR DURING FCH. General description of conditions for occurring: The blood leak test detects a limit less than -20 BLU. Technical description of conditions for occurring: The blood leak transmitter is switched on. PRI(PI_BLOOD$LEAK) < PI(EPI_BLOOD$LEAK$ON$MIN) PRI(PI_BLOOD$LEAK) = 0 when the fluid is completely transparent and approx. 120 when the fluid is completely dark.) Some possible explanations why the error has occurred: * Incorrect blood leak detector calibration. * The blood leak receiver is broken. Some hints of what to do if the error occurs: Check the blood leak detector calibration. HDF scale supervision function. (CPU P). FCN 1.25 000 = Case error. The program is not working properly. Profiling function. (Na profiling in Acetate mode and Na, HCO3 profiling in Bicarbonate mode) FCN 1.26 000 = Case error. The program is not working properly.

FCN 1.26 001 = Undefined Na type in Bicarbonate mode neither of (Off, Linear, Degressive, Progressive).

FCN 1.26 002 = Undefined HCO3 type in Bicarbonate mode neither of (Off, Linear, Degressive, Progressive).

FCN 1.26 003 = Undefined Na type in Acetate mode neither of (Off, Linear, Degressive, Progressive).

FCN 1.26 004 = Division by zero or overflow error. Profiling parameter set function. (CPU P). FCN 1.27 000 = Case error. The program is not working properly. FCN 1.27 001 = Removed. Previously: No correct safe memory area for profiling settings. FCN 1.27 002 = Irrelevant profiling model selected. FCN 1.27 003 = Division by zero or overflow error.


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HDF infusion pump rate supervision function. (CPU P). FCN 1.28 000 = Case error. The program is not working properly. HDF infusion pump rate calculation function. (CPU P). FCN 1.29 000 = Case error. The program is not working properly. FCN 1.29 001 = The HDF infusion pump is running to fast. FCN 1.29 002 = A pump error has occurred . General description of conditions for occurring: Infusion pump running when blood pump is stopped (Not in EXTRA mode). Infusion pump stopped in EXTRA mode.

FCN 1.29 003 = The venous blood pump is regulated to a speed near the set value of 2 kHz during the blood pump test in the function check. The error code is issued when the speed is outside the limits of the protective system half revolution time counter, 2000 ms to 3000 ms.

Main Flow supervision function. (CPU P). FCN 1.33 00x Removed. Main Flow supervision FCH function. (CPU P). FCN 1.34 00x Removed. BiCart Select Flow Multiplexer Function (CPU C) FCN 1.35 000 DIVISION BY ZERO OR OVER FLOW ERROR Power supervision function (CPU P) FCN 1.37 000 = Case error, not used FCN 1.37 001 = Z12P (P12PS) out of range for more than 3 seconds FCN 1.37 002 = Z12N (P12NS) out of range for more than 3 seconds FRN node controller Function (CPU P) FCN 1.39 000 = Case error. The program is not working properly. [F,T,D,S]

Note: Error codes 001, 004 and 006 are only possible if machine preset for UF supervision active (Fch of FRN RQ1 and RQ2 measurements).

FCN 1.39 001 FRN high flow measurement failed too many times. General description of conditions for occurring: - The difference between Channel 1 and Channel 2 flows measured by the FRN

differed more than the preset value (1-3 ml/min). PRB(PB_RESTR$NO$HIGH$FLOW$RETEST) = Number of retest of the complete FRN high flow test

Some possible explanations why the error has occurred:

The FRN is not calibrated. There is a small leakage in the fluid path between the FIP and the FOP transducer. The preset limit is set to low. There is a hardware error in the Node or in the FIP or FOP transducers.

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FCN 1.39 004 Too many tarations not approved by node. General description of conditions for occurring: - The error is set when the FRN node fails to make a taration of the measurements in

Channel 1 and Channel 2. Some possible explanations why the error has occurred: * The FRN is not calibrated. * There is a hardware error in the Node or in the FIP or FOP transducers. FCN 1.39 006 FRN low flow measurement failed too many times. General description of conditions for occurring: - The difference between Channel 1 and Channel 2 flows measured by the FRN differed more than the preset value (1-3 ml/min) or - The Channel 1 or Channel 2 flow measured by the FRN differed more than 9 ml/min

from the set value. PRB(PB_RESTR$NO$LOW$FLOW$RETEST) = Number of retest of the complete FRN low flow test


The FRN is not calibrated. There is a small leakage in the fluid path between the FIP and the FOP transducer. The preset limit is set to low. There is a hardware error in the Node or in the FIP or FOP transducers.

FCN 1.39 007 FRN recovery failure General description of conditions for occurring: - During recovery CPU P has sent the taration parameters to the FRN node more than 60 times Some possible explanations why the error has occurred: * There is a hardware error in the FRN node.

Note: Error codes 008, 009 and 010 are only possible if machine preset for UF supervision NOT active (Fch of FRN RQ1 measurement only).

FCN 1.39 008 FRN RQ1 High Flow test measurement failed too many times General description of conditions for occurring: - The main flow, RQ1, measured by the FRN differed more than +/- 9 ml/min from the flow set value FI_MAIN$FL$SET, High Flow test set value approximately 700 ml/min. Max test time 336 seconds (200 samples from FRN). Some possible explanations why the error has occurred: * The FRN is not calibrated. * The FRN or the UF-cell is badly calibrated. * There is a hardware error in the Node or in the FOP transducer. FCN 1.39 009 FRN RQ1 Low Flow test measurement failed too many times General description of conditions for occurring: - The main flow, RQ1, measured by the FRN differed more than +/- 9 ml/min from the flow set value, Low Flow test set value = High Flow test set value - 50 ml/min

(FI_MAIN$FL$SET + FI_MAIN$FL$OFF). Max test time 336 seconds (200 samples from FRN). Some possible explanations why the error has occurred: * The FRN is not calibrated. * The FRN or the UF-cell is badly calibrated. * There is a hardware error in the Node or in the FOP transducer.


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FCN 1.39 010 FRN RQ1 Diff Flow test measurement failed too many times General description of conditions for occurring: - The FRN main flow measurement, RQ1, difference between High Flow test and Low Flow test differs more than +/- 4 ml/min from the difference set value 50 ml/min (FI_MAIN$FL$OFF). Max test time 336 seconds (200 samples from FRN). Some possible explanations why the error has occurred: * The FRN is not calibrated. * The FRN or the UF-cell is badly calibrated. * There is a hardware error in the Node or in the FOP transducer. FCN 1.39 011 FRN Taration leakage check not approved General description of conditions for occurring:

- The valves are closed for taration. The FRN UF-rate has not fallen below preset limit S 529 (default 10 ml/min) before FRN taration is started. Time limit 30 s. This implies a flow through the closed valves. A new taration has been requested by FRN and also this taration is out of limit.

Some possible explanations why the error has occurred: * Leaking TAVA/DIVA. * There is a hardware error in the Node or in the FOP transducer. FRN UF supervision function (CPU P) FCN 1.40 000 = Case error. The program is not working properly. [F,T,D,S] BiCart Select Protective Pump node controller Function (CPU P) FCN 1.41 000 = Case error. The program is not working properly. [F,T,D,S] Heparin pump supervision (CPU P). Purpose: Supervises the heparin pump speed. * Checks that the number of counted pulses does not differ too much from

the estimated number of pulses. * Checks that the pump is stopped when it is not commanded to move. The heparin pump set value , ORI(OI_HEP$SET), is used to calculate

the expected infused heparin volume, PRI(PI_HEP$EST$ACC). This volume is compared with the volume calculated from the counted pulses, PRI(PI_HEP$ACC). /FCN 1.43 000 = Software error. [F,T,D,S] Please refer to the description of FCN 1.00 000.

/FCN 1.43 001 = Heparin potentiometer read error from FPGA. [F,T]

/FCN 1.43 002 = Heparin control error (movement detected when disabled). Please refer to FCN 5.02 006.

/FCN 1.43 003 = Heparin pump speed too high. [F,T] Please refer to FCN 5.02 004.

/FCN 1.43 004 = Heparin pump speed too low. [F,T] Please refer to FCN 5.02 003. /FCN 1.43 005 = Heparin syringe dimension preset error (Syringe [F,T] volume or/and Syringe length out of limits).

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Function check temperature test supervision (CPU P). FCN 1.44 000 = Software error. [F,T,D,S] Please refer to the description of FCN 1.00 000.

FCN 1.44 001 = High temperature test error. [F] The difference between the control system temperature sensors and the protective system temperature sensors is too large.

FCN 1.44 002 = Set temperature (treatment temperature) test error. [F] The difference between the control system temperature sensors and the

protective system temperature sensors were too large. FRI(FI_TEMP$A) = Conductivity cell A temperature. FRI(FI_TEMP$B) = Conductivity cell B temperature. PRI(PI_TEMP$1$G) = Conductivity cell A temperature guard. PRI(PI_TEMP$B) = Conductivity cell B temperature guard. EEPROM ctrl function for protective BUS 4, external pressure sensors. (CPU P). FCN 1.45 000 = Case error. The program is not working properly. FCN 1.45 xyz = x - I2C bus,

y - logical address, (see I2C list at end) z - error type:

1 - acknowledge error (no response) 2 - wrong byte addr. or byte count 3 - read CRC error 4 - type error 5 - position error 6 - offset limit error 7 - coefficient limit error 8 - E2PROM is reference type 9 - wrong bus number A - read verify error B - internal table error Blood pressure transducer test during Fch:

Pressure test at > 200 mmHg and < -200 mmHg (CPU P). FCN 1.46 000 Case error. The program is not working properly. FCN 1.46 011 High pressure difference test failed: Arterial pressure did not reach 200 mmHg within 30 seconds. FCN 1.46 012 High pressure difference test failed: System pressure did not reach 200 mmHg within 30 seconds. FCN 1.46 013 High pressure difference test failed: Venous pressure did not reach 200 mmHg within 30 seconds. FCN 1.46 014 High pressure difference test failed: Arterial and system pressure differed more than 20 mmHg. FCN 1.46 015 High pressure difference test failed: Arterial and venous pressure differed more than 20 mmHg. FCN 1.46 016 High pressure difference test failed: System and venous pressure differed more than 20 mmHg.


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FCN 1.46 021 Low pressure difference test failed: Arterial pressure did not reach -200 mmHg within 30 seconds. FCN 1.46 022 Low pressure difference test failed: System pressure did not reach -200 mmHg within 30 seconds. FCN 1.46 023 Low pressure difference test failed: Venous pressure did not reach -200 mmHg within 30 seconds. FCN 1.46 024 Low pressure difference test failed: Arterial and system pressure differed more than 20 mmHg. FCN 1.46 025 Low pressure difference test failed: Arterial and venous pressure differed more than 20 mmHg. FCN 1.46 026 Low pressure difference test failed: System and venous pressure differed more than 20 mmHg. Blood pressure transducer test during Fch:

Arterial zero pressure test (CPU P). FCN 1.47 000 Case error. The program is not working properly. FCN 1.47 001 First zero pressure stability test failed for arterial pressure transducer. The absolute difference of

max and min pressure was not within 10 mmHg and the last examined sample was not < 5 mmHg even after waiting 2 min. after confirmed attention. A possible explanation why the error has occurred: * If the machine is shut off or service mode is entered during the blood pressure transducer test, there is a possibility that the pressure gets locked in the new check valve and as a result the machine has to be opened and the pressure released manually.

FCN 1.47 002 Second zero pressure stability test failed for arterial pressure transducer: The pressure did not return to zero after the high and low pressure difference test. Probably the leak hole in the tube-set between the pressure test pump and

the transducers is clogged up. Blood pressure transducer test during Fch:

System zero pressure test (CPU P). FCN 1.48 000 Case error. The program is not working properly.

FCN 1.48 001 First zero pressure stability test failed for system pressure transducer. The absolute difference of max and min pressure was not within 10 mmHg and the last examined sample was not < 5 mmHg even after waiting 2 min. after confirmed attention. A possible explanation why the error has occurred: * If the machine is shut off or service mode is entered during the blood pressure transducer test, there is a possibility that the pressure gets locked in the new check valve and as a result the machine has to be opened and the pressure released manually.

FCN 1.48 002 Second zero pressure stability test failed for system pressure transducer: The pressure did not return to zero after the high and low pressure difference test. Probably the leak hole in the tube-set between the pressure test pump and

the transducers is clogged up.

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Blood pressure transducer test during Fch: venous zero pressure test (CPU P). FCN 1.49 000 Case error. The program is not working properly.

FCN 1.49 001 First zero pressure stability test failed for venous pressure transducer. The absolute difference of max and min pressure was not within 10 mmHg and the last examined sample was not < 5 mmHg even after waiting 2 min. after confirmed attention. A possible explanation why the error has occurred: * If the machine is shut off or service mode is entered during the blood pressure transducer test, there is a possibility that the pressure gets locked in the new check valve and as a result the machine has to be opened and the pressure released manually.

FCN 1.49 002 Second zero pressure stability test failed for venous pressure transducer: The pressure did not return to zero after the high and low pressure difference test. Probably the leak hole in the tube-set between the pressure test pump and

the transducers is clogged up. Fluid pressure test in PRS FCN 1.50 06x LOW PRESSURE CORRELATION TEST [P] State 1:

Low pressure correlation PD (protective), PD (control) and SAG transducers. The HPG is regulated to 20% by CTRLS.

A. Each pressure transducer shall have a stable value during 5 seconds, maximum deviation 10mmHg.

B. When stable values for each transducer are obtained, the transducers are compared. The test is passed if the maximum deviation between the transducers is less than 25mmHg.

x is type of error: 1 - PD (protective) is not stable, test A. 2 - PD (control) is not stable, test A. 3 - PD (protective) and PD (control) not correlated, test B. 4 - SAG not correlated to both PD (protective) and PD (control), test B. 5 - PD (protective) and SAG not correlated , test B. 6 - PD (control) and SAG not correlated, test B. 7 - No correlation at all, test B.


The pressure transducer(s) is not calibrated. The pressure transducer(s) or electronics malfunctioning. The fluid pump(s) are broken.

FCN 1.50 07x HIGH PRESSURE CORRELATION TEST [P] State 2:

High pressure correlation PD (protective), PD (control) and SAG transducers. The HPG is regulated to 80% by CTRLS.

A. Each pressure transducer shall have a stable value during 5 seconds, maximum deviation 10mmHg.

B. When stable values for each transducer are obtained, the transducers are compared. The test is passed if the maximum deviation between the transducers is less than 25mmHg.

x is type of error: 1 - PD (protective) is not stable, test A. 2 - PD (control) is not stable, test A. 3 - PD (protective) and PD (control) not correlated, test B. 4 - SAG not correlated to both PD (protective) and PD (control), test B.


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5 - PD (protective) and SAG not correlated, test B. 6 - PD (control) and SAG not correlated, test B. 7 - No correlation at all, test B.


The pressure transducer(s) is not calibrated. The pressure transducer(s) or electronics malfunctioning. The fluid pump(s) are broken.

Arterial pressure guard supervision. (CPU OB). FCN 2.00 000 = Function deleted. Extra pressure supervision. (CPU OB). FCN 2.01 000 = Case error. The program is not working properly. Venous pressure supervision. (CPU OB). FCN 2.02 000 = Case error. The program is not working properly. Level detector function (CPU OB). FCN 2.03 000 = Case error. The program is not working properly. FCN 2.03 001 = Removed. FCN 2.03 002 = Removed. FCN 2.03 003 = Removed. FCN 2.03 004 = Removed. Priming detector function. (CPU OB). FCN 2.04 000 = Case error. The program is not working properly. FCN 2.04 001 = Removed FCN 2.04 002 = Removed FCN 2.04 003 = Removed Arterial tidal volume supervision. (CPU OB). FCN 2.05 000 = Case error. The program is not working properly. Arterial pump supervision function. (CPU OB). FCN 2.07 000 = Case error. The program is not working properly. FCN 2.07 001 = Technical error in the arterial pump. FCN 2.07 002 = Arterial pump head does not move when it should. FCN 2.07 003 = Arterial pump head move when it should not. FCN 2.07 004 = Arterial pump head does not move with right speed.

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Venous pump supervision function. (CPU OB). FCN 2.08 000 = Case error. The program is not working properly. FCN 2.08 001 = Technical error in the venous pump. FCN 2.08 002 = Venous pump head does not move when it should. FCN 2.08 003 = Venous pump head move when it should not. FCN 2.08 004 = Venous pump head does not move with right speed. Preset conversion function. (CPU OB). FCN 2.09 000 = Function deleted. Optional pressure function. (CPU OB). FCN 2.10 000 = Case error. The program is not working properly. Pressure transducer connection supervision. (CPU OB). FCN 2.11 000 = Case error. The program is not working properly. HDF scale supervisory function. (CPU OB). FCN 2.12 Removed. BVS Supervision function, (CPU OB) FCN 2.13 000 = Case error. The program is not working properly. !FCN 2.13 001 = More than 90 seconds between BVS measurement data during treatment. Bargraphs. (CPU OB). FCN 3.00 000 = Case error for venous pressure. FCN 3.00 001 = RIO Request Err for venous bar FCN 3.01 000 = Case error for blood flow. FCN 3.01 001 = RIO Request Err for blood bar FCN 3.02 000 = Case error for temperature. FCN 3.02 001 = RIO Request Err for temperature bar FCN 3.03 000 = Case error for conductivity. FCN 3.03 001 = RIO Request Err for conductivity bar FCN 3.04 000 = Case error for arterial pressure. FCN 3.04 001 = RIO Request Err for arterial bar FCN 3.05 000 = Case error for TMP. FCN 3.05 001 = RIO Request Err for TMP bar FCN 3.06 000 = Case error for UF volume. FCN 3.06 001 = RIO Request Err for UF volume bar FCN 3.07 000 = Case error for UF rate. FCN 3.07 001 = RIO Request Err for UF rate bar FCN 3.08 001 = RIO Request Err for CUR bar UF gain control. (CPU OB). FCN 3.08 000 = Case error. The program is not working properly.


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Information display. (CPU OB). FCN 3.09 xxx = Case error in main state xxx. FCN 3.09 256 = SVC error. FCN 3.09 258 = RIO error status=??. FCN 3.09 259 = RIO error status=1. FCN 3.09 260 = RIO error status=0. FCN 3.09 261 = RIO error status=-1. FCN 3.09 262 = RIO error status=-2. FCN 3.09 263 = RIO error status=-3. FCN 3.09 270 = reference to non-existent treatment text FCN 3.09 271 = reference to non-existent service text FCN 3.09 272 = reference to non-existent treatment language FCN 3.09 280 = non-existent chemical type in EEB_CH$TYPE$0 FCN 3.09 281 = non-existent chemical type in EEB_CH$TYPE$1 FCN 3.09 282 = non-existent chemical type in EEB_CH$TYPE$2 FCN 3.09 283 = non-existent preset type in OB_PRESET$TEXT FCN 3.09 284 = non-existent heating type in EEB_HEAT$TYPE$0 FCN 3.09 285 = non-existent heating type in EEB_HEAT$TYPE$1 FCN 3.09 286 = non-existent heating type in EEB_HEAT$TYPE$2 FCN 3.09 287 = non-existent rinse type in EEB_RINSE$TYPE$0 FCN 3.09 288 = non-existent rinse type in EEB_RINSE$TYPE$1 (not used in Prom 10.00) FCN 3.09 289 = non-existent rinse type in EEB_RINSE$TYPE$2 (not used from Prom 10.00) FCN 3.09 300 = Checksum error of current language text bank. FCN 3.09 301 = TEXTBANKID and the selected bank does not match. FCN 3.09 981 = Removed. FCN 3.09 982 = -"- FCN 3.09 983 = -"- FCN 3.09 984 = -"- FCN 3.09 985 = -"- FCN 3.09 986 = -"- FCN 3.09 992 = -"- FCN 3.09 993 = -"- FCN 3.09 994 = -"- FCN 3.09 995 = -"- FCN 3.09 996 = -"- FCN 3.09 997 = -"- FCN 3.09 998 = -"- FCN 3.09 999 = Main Case error. The program is not working properly. Access code control. (CPU OB). FCN 3.10 000 = Case error. The program is not working properly.

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LED functions. (CPU OB). Function 3.11 to 3.44, 3.75, 3.76, 3.78 : Key LEDs. FCN 3.nn 000 = Removed. Case error. The program is not working properly. FCN 3.nn 001 = Removed. LED broken or bad connection. FCN 3.nn 002 = Removed. Removed. FCN 3.nn 003 = Removed. Function state conflict ( Not 0 during LED test ). FCN 3.nn 004 = Removed. Shortage error. FCN 3.12 nnn = Removed. L 3 Auto heat LED test. FCN 3.13 nnn = Removed. L 9 Auto rinse LED test. FCN 3.14 nnn = Removed. L 4 Isolated UF LED test. FCN 3.15 nnn = Removed. L 5 TMP mode LED test. FCN 3.16 nnn = Removed. L 6 UF mode LED test. FCN 3.17 nnn = Removed. L 10 Single needle mode LED test. FCN 3.18 nnn = Removed. L 11 Acetate mode LED test. FCN 3.19 nnn = Removed. L 12 Bicarbonate mode LED test. FCN 3.20 nnn = Removed. L 7 Chemical disinfection LED test. FCN 3.21 nnn = Removed. L 2 Heat disinfection LED test. FCN 3.22 nnn = Removed. L 22 Heparin pump LED test. FCN 3.23 nnn = Removed. L 14 Blood flow LED test. FCN 3.24 nnn = Removed. L 15 Single needle parameters LED test. FCN 3.25 nnn = Removed. L 17 Conductivity LED test. FCN 3.26 nnn = Removed. L 16 Temperature LED test. FCN 3.27 nnn = Removed. L 28 UF volume LED test. FCN 3.28 nnn = Removed. L 29 UF rate LED test. FCN 3.29 nnn = Removed. L 30 Level detector LED test. FCN 3.30 nnn = Removed. L 32 Attention LED test. FCN 3.31 nnn = Removed. L 18 Priming detector LED test. FCN 3.32 nnn = Removed. L 34 pH LED test. FCN 3.33 nnn = Removed. L 35 Blood leak LED test. FCN 3.34 nnn = Removed. L 21 Time LED test. FCN 3.35 nnn = Removed. L 31 Arterial guard LED test. FCN 3.36 nnn = Removed. L 8 Rinse / Drain LED test. FCN 3.37 nnn = Removed. L 13 Venous pressure LED test. FCN 3.38 nnn = Removed. L 25 Extra pressure LED test. FCN 3.39 nnn = Removed. L 26 TMP LED test. FCN 3.40 nnn = Removed. L 36 Blood pump LED test. FCN 3.41 nnn = Removed. L 38 Mute LED test. FCN 3.42 nnn = Removed. L 39 Fluid bypass LED test. FCN 3.43 nnn = Removed. L 41 Start / Stop LED test. FCN 3.44 nnn = Removed. L 42 Hold LED test. FCN 3.75 nnn = Removed. L 19 Profiling LED test. FCN 3.76 nnn = Removed. L 23 HDF LED test. FCN 3.78 nnn = Removed. L 24 HF LED test. Remaining time calculation. (CPU OB). FCN 3.45 000 = Case error. The program is not working properly. Passed time calculation. (CPU OB). FCN 3.46 000 = Case error. The program is not working properly.


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Non-diffusion time (bypass time) calculation. (CPU OB). FCN 3.47 000 = Case error. The program is not working properly. UF volume predict. (CPU OB). FCN 3.48 000 = Case error. The program is not working properly. TMP - UF transition. (CPU OB). FCN 3.49 000 = Case error. The program is not working properly. Blood flow path LEDs. (CPU OB). FCN 3.50 000 = Case error. The program is not working properly. FCN 3.50 003 = Function state conflict ( Not 0 during LED test ). FCN 3.50 001 = Removed. LED broken : AFL1 , Arterial LED 1 Nr : 46 FCN 3.50 004 = Removed. Shortage : AFL1 , Arterial LED 1 Nr : 46 FCN 3.50 011 = Removed. LED broken : AFL2 , Arterial LED 2 Nr : 47 FCN 3.50 014 = Removed. Shortage : AFL2 , Arterial LED 2 Nr : 47 FCN 3.50 021 = Removed. LED broken : VFL1 , Venous LED 1 Nr : 48 FCN 3.50 024 = Removed. Shortage : VFL1 , Venous LED 1 Nr : 48 FCN 3.50 031 = Removed. LED broken : VFL2 , Venous LED 2 Nr: 49 FCN 3.50 034 = Removed. Shortage : VFL2 , Venous LED 2 Nr : 49 Fluid flow path LEDs. (CPU OB). FCN 3.51 000 = Case error FCN 3.51 003 = Function state conflict ( Not 0 during LED test ). FCN 3.51 001 = Removed. LED broken : FLOL, Fluid Left Ok LED Nr : 53 FCN 3.51 004 = Removed. Shortage : FLOL, Fluid Left Ok LED Nr : 53 FCN 3.51 011 = Removed. LED broken : FLAL, Fluid Left Alarm LED Nr : 54 FCN 3.51 014 = Removed. Shortage : FLAL, Fluid Left Alarm LED Nr : 54 FCN 3.51 021 = Removed. LED broken : BYOL, Bypass Ok LED Nr : 55 FCN 3.51 024 = Removed. Shortage : BYOL, Bypass Ok LED Nr : 55 FCN 3.51 031 = Removed. LED broken : BYAL, Bypass Alarm LED Nr : 56 FCN 3.51 034 = Removed. Shortage : BYAL, Bypass Alarm LED Nr : 56 FCN 3.51 041 = Removed. LED broken : FROL, Fluid Right Ok LED Nr : 57 FCN 3.51 044 = Removed. Shortage : FROL, Fluid Right Ok LED Nr : 57 FCN 3.51 051 = Removed. LED broken : FRAL, Fluid Right Alarm LED Nr : 58 FCN 3.51 054 = Removed. Shortage : FRAL, Fluid Right Alarm LED Nr : 58 FCN 3.51 061 = Removed. LED broken : DLOL, Dialyzer Left Ok LED Nr : 50 FCN 3.51 064 = Removed. Shortage : DLOL, Dialyzer Left Ok LED Nr : 50 FCN 3.51 071 = Removed. LED broken : DROL, Dialyzer Right Ok LED Nr : 51 FCN 3.51 074 = Removed. Shortage : DROL, Dialyzer Right Ok LED Nr : 51 FCN 3.51 081 = Removed. LED broken : DRAL, Dialyzer Right Al. LED Nr : 52 FCN 3.51 084 = Removed. Shortage : DRAL, Dialyzer Right Al. LED Nr : 52

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HCEN9313

Fluid bypass (DIVA bus). (CPU OB). FCN 3.52 000 = Case error. The program is not working properly. Venous pressure auto alarm limits adjust. (CPU OB). FCN 3.53 000 = Case error. The program is not working properly. Extra pressure auto alarm limits adjust. (CPU OB). FCN 3.54 000 = Case error. The program is not working properly. TMP auto alarm limits adjust. (CPU OB). FCN 3.55 000 = Case error. The program is not working properly. Time display. (CPU OB). FCN 3.56 000 = Case error. The program is not working properly. FCN 3.56 001 = RIO error. Can't send msg. Keyboard input. (CPU OB). FCN 3.57 000 = Case error. The program is not working properly. FCN 3.57 001 = Not valid. FCN 3.57 002 = Error in START/UF/STOP KEY handshaking with CPU P General description of conditions for occurring: START/UF/STOP key is stuck or does not respond. FCN 3.57 003 = RIO error. FCN 3.57 004 = Time out in receiving program version from operators panel Manual data input. (CPU OB). FCN 3.58 000 = Main Case error. The program is not working properly. FCN 3.58 xxx = Case error in main state 0 - 255. FCN 3.58 256 = OI_UF$RATE$SET has become negative FCN 3.58 900 = RIO error. FCN 3.58 901 = Unexpected message was received. Machine off. (CPU OB). FCN 3.59 000 = Case error. The program is not working properly. FCN 3.59 001 = Estimated heat time too large. FCN 3.59 002 = Estimated rinse time too large. FCN 3.59 003 = Machine still running after machine-off sequence. FCN 3.59 004 = clock alarm write error. FCN 3.59 005 = clock read error. FCN 3.59 006 = Not used from Prom 10.10 (was: dummy alarm write error). FCN 3.59 007 = Not used from Prom 10.10 (was: clock NODA write error). FCN 3.59 008 = Not used from Prom 10.10 (was: clock COMP write error). FCN 3.59 009 = Auto on (heat/rinse) safe memory area checksum error. This area is set to default values when error. FCN 3.59 010 = Auto on (heat/rinse) safe memory week scheduler area checksum error. This area is set to default values when error. To correct error change time in week scheduler.


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Main buzzer control. (CPU OB). FCN 3.60 000 = BM case error. The program is not working properly. FCN 3.60 001 = FM case error. The program is not working properly. Blood potentiometer data input. (CPU OB). FCN 3.61 000 = Case error. The program is not working properly. Heparin auto stop limit. (CPU OB). FCN 3.62 000 = Case error. The program is not working properly. Linear transducer calibration calculation. (CPU OB). FCN 3.63 000 = Case error. The program is not working properly. Real time calculation. (CPU OB). FCN 3.64 000 = Case error. The program is not working properly. FCN 3.64 002 = Error when writing YEAR in EEPROM. FCN 3.64 003 = CMOS real time clock was not initialised. Automatic initialisation follows, but previous settings are lost. FCN 3.64 004 = The time saved in battery powered RAM is corrupt. Previous settings are lost. !FCN 3.64 005 = RTC Low voltage detected. The time in the RTC may be corrupt. Only used in Prom9.20, replaced by attention in Prom10.00. FCN 3.64 1xy = Error accessing CMOS real time clock over the I2C bus:

x = type of access

x = 0 initialising RTC at start-up x = 1 reading time from RTC x = 2 resetting alarm time in RTC at start-up (before Prom 10.10 writing alarm time) x = 3 resetting NODA flag at start-up x = 4 resetting COMP flag at start-up x = 5 reading time from RTC at start-up x = 6 writing default time to RTC at start-up x = 7 writing programmed time to RTC (from Prom 10.10)

y = I2C access error

y = 1 I2C acknowledge error y = 2 I2C byte address error y = 9 I2C bus address error (bus 3 is not valid) Select disinfection mode. (CPU OB). FCN 3.65 000 = Case error chemical disinfection selection. The program is not working properly. FCN 3.65 001 = Case error heat disinfection selection. The program is not working properly (from Prom 10.10). FCN 3.65 002 = Case error rinse selection. The program is not working properly (from Prom 10.10).

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Parallel E2prom function. (CPU OB). FCN 3.66 000 = Case error. The program is not working properly. FCN 3.66 001 = CRC error. FCN 3.66 002 = Preset variable out of range. FCN 3.66 003 = Too few variables in EEPROM according to program. Initiate the new variables in preset handling. FCN 3.66 004 = EEPROM read error. FCN 3.66 005 = EEPROM write error. FCN 3.66 006 = PC preset calculation not performed. FCN 3.66 007 = PC preset not complete. FCN 3.66 008 = Default preset error in EEL array. FCN 3.66 009 = Default preset error in EEB array. FCN 3.66 010 = Default preset error in EEW array. FCN 3.66 011 = Default preset error in EEI array. FCN 3.66 012 = Default preset error in EER array. FCN 3.66 013 = PC preset to CPU F not performed. FCN 3.66 014 = PC preset to CPU P not performed. Internal support function. (CPU OB). FCN 3.67 000 = Case error. The program is not working properly. Battery/Ultra capacitor test function. (CPU OB). FCN 3.68 000 = Case error. The program is not working properly. FCN 3.68 001 = The 12V winding in the AC/DC unit is broken. !FCN 3.68 002 = The battery failure attention has been confirmed three times.

The battery, mounted inside the blood monitor has to be recharged or replaced. If the error remains the PLD P0-185 might be broken,

see FCN 3.68 003. FCN 3.68 003 = PLD P0-185 on the BM CPU board is not working. ! FCN 3.68 004 = Venous pressure air pump overload (from Prom 10.10). ! FCN 3.68 005 = System pressure air pump overload (from Prom 10.10). LED test function. (CPU OB). FCN 3.69 000 = Case error LED test function. FCN 3.69 001 = Removed. LED port out of range [0..7] LED test FCN 3.69 002 = Rio error. Preset calculation function. (CPU OB). FCN 3.70 000 = Case error. The program is not working properly. Conductivity function. (CPU OB). FCN 3.71 000 = Case error. The program is not working properly. FCN 3.71 001 = Bicarbonate constant comparation error.

Protective system and CPU OB differ in constants. Concentrate preset mode/alternative function. (CPU OB). FCN 3.72 000 = Case error. The program is not working properly. Attention function. (CPU OB). FCN 3.73 000 = Case error. The program is not working properly.


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Bicarbonate mode time measurement function. (CPU OB). FCN 3.74 000 = Case error. The program is not working properly. More LEDs. (CPU OB). FCN 3.75 nnn = Removed. FCN 3.76 nnn = Removed. FCN 3.78 nnn = Removed. Profiling parameter set function. FCN 3.79 000 = Case error. The program is not working properly. FCN 3.79 001 = Not valid. FCN 3.79 002 = Not valid. Conductivity profiling function. FCN 3.80 000 = Case error. The program is not working properly. FCN 3.80 001 = NA undefined profile type. FCN 3.80 002 = HCO3 undefined profile type. FCN 3.80 003 = NA AC undefined profile type. Convert function. Convert preset variables. FCN 3.81 000 = Function deleted. UF equation and UF gain utilities (UF profiling). FCN 3.82 000 = Case error. The program is not working properly. FCN 3.82 001 = UF undefined profile type. System pressure alarm limit controller. FCN 3.83 000 = Case error. The program is not working properly. Treatment time handling function in protective system. (CPU P). FCN 3.84 000 = Function deleted. GSS LED. (CPU OB). FCN 3.86 nnn = Function deleted. Negative UF supervision. (CPUA). FCN 3.89 000 = Case error. The program is not working properly. AUTO TMP SETUP function (CPU OB). FCN 3.92 000 = Case error. The program is not working properly.

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BM AD function. (CPU OB). ADC INTR 000 = AD-buffer full error FCN 4.00 000 = Undefined AD case error FCN 4.00 001 = Undefined sequence selection FCN 4.00 002 = Multiple AD-restarts FCN 4.00 003 = Reference voltage out of range FCN 4.00 004 = Offset voltage out of range FCN 4.00 005 = Illegal sensitivity coefficient FCN 4.00 006 = Reference voltage limits start up check FM AD function. (CPU F). ADC INTR 001 = A/D timer load counter error call from interrupt state. ADC INTR 002 = A/D timer mode load hold register test error call from interrupt state. ADC 4.01 0xx = More then 20% over range on channel xx Channel xx Explanation

0 MAIN PC BOARD TEMPERATURE 1 MOTOR CURRENT 2 VALVE CURRENT 3 CONDUCTIVITY CONTROL ACETATE/TOTAL 4 DEGASSING PRESSURE 5 HEATING VESSEL TEMPERATURE 6 CONDUCTIVITY CONTROL BCM OPTION 7 TEMPERATURE BCM CONDUCTIVITY TRANSDUCER 8 UF TRANSDUCER COIL CURRENT (POSITIVE SYNC) 9 HIGH PRESSURE GUARD (HPG) 10 DIALYSIS PRESSURE (PD) 11 AUX INPUT 12 AUX INPUT 13 AUX INPUT 14 OFFSET VOLTAGE AD-SYSTEM 15 REFERENCE VOLTAGE AD-SYSTEM FCA 4.01 001 = A/D timer load counter error call from ad-task. FCA 4.01 002 = A/D timer mode load hold register test error call from ad-task. FCB 4.01 xxx = AD conversion stop for xxx sec. FCN 4.01 000 = Case error. The program is not working properly. FCN 4.01 001 = Timer error. FCN 4.01 002 = AD converter offset out of limits. -10 mV < offset (= 0.0 mV) < + 10 mV FCN 4.01 003 = AD converter reference out of limits. 45.45 mV < reference ( = 49.50 mV) < 54.89 mV FCN 4.01 004 = AD-system timeout 1 sec. FCN 4.01 005 = AD buffer full. FCN 4.01 006 = AD buffer full and empty. pH measuring function. (CPU F). FCN 4.02 000 = Case error. The program is not working properly. FCN 4.02 001 = Timer problem detected. FCN 4.02 F00 = init timer error. FCN 4.02 F01 = overflow error. (Currently not used after prom 3.40) FCN 4.02 F02 = read timer error.

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