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TOSOH AUTOMATED GLYCOHEMOGLOBIN ANALYZERTOSOH AUTOMATED GLYCOHEMOGLOBIN ANALYZER
HLC-723GXHLC-723GX
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS
Rev.2Rev.2  
TOSOH CORPORATIONTOSOH CORPORATION
BIOSCIENCE DIVISIONBIOSCIENCE DIVISION
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
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Revision recordRevision record
Rev.Rev. Revision dateRevision date   Revision contentRevision content  
11 Jul Jul 25, 25, 2011 2011 CreatedCreated
22  Apr 13, 2012 Apr 13, 2012
The data format of IFCC value can be reported like 999.9 (oneThe data format of IFCC value can be reported like 999.9 (one
decimal place form) when the decimal place form) when the PERCENT DECIMAL parameter valuePERCENT DECIMAL parameter value
is set to 8.is set to 8.
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
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ContentsContents
11 INTRODUCTION..................................INTRODUCTION.......................................................................................................................................................................... 44  
22 HARDWARHARDWARE E SPECIFICATIONS............................SPECIFICATIONS.............................................................................................................................. 44  
33    COMMUNICCOMMUNICATION ATION SETTINGSETTING .................................................................................................................................................................. 55  
44 COMMUNICCOMMUNICATION ATION MODEMODE ............................................................................................................................................................................ 66  
4.1.4.1.    GX format anGX format and old moded old model compatible forl compatible formatmat.................................................................................................................................... 66  
4.2.4.2.    Hi-LEVEL Hi-LEVEL and and RP RP modesmodes .............................................................................................................................................................................................. 77  
55    TRANSMISSIOTRANSMISSION N PROTOCOLPROTOCOL ................................................................................................................................................................ 88  
55..11..    Handshake......................................................................................................Handshake...................................................................................................................................... 88  
66 COMMUNICCOMMUNICATION ATION FORMAT................................FORMAT................................................................................................................................ 1010  
6.1.6.1.    QueryQuery ........................................................................................................................................................................................................................................................ 1010  
6.1.1.6.1.1.    Sample and cSample and container tontainer type ype dedesignatisignatioon..........................................................n.......................................................... 1111  
6.2.6.2.    MeasuremeMeasurement nt resultsresults ........................................................................................................................................................................................................ 1212  
6.2.1.6.2.1.    GX GX format.................................................................................................format................................................................................................................... 1212  6.2.2.6.2.2.    G8 G8 formatformat.................................................................................................................................................................................................................... 1616  
66..22..33..    G9 G9 formatformat.................................................................................................................................................................................................................... 1919  
6.2.4.6.2.4.    G7 G7 formatformat.................................................................................................................................................................................................................... 2020  
66..22..55..    GHGHbV bV ccoompampatitible ble formatformat..................................................................................................................................................................2121  
6.2.6.6.2.6.    FFllag ag lleevevel and cl and coommmmuniunicacatitioonn.................................................................................................................................................. 2424  
  
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11 IntIntrrododucucttionion
This document describes the communication arrangements used when connecting theThis document describes the communication arrangements used when connecting the
HLC-723GX (hereaHLC-723GX (hereafter called analyzer) to fter called analyzer) to a host a host computer (hereafter called host).computer (hereafter called host).
22 HHardware specardware specifiificcationsations
(1) (1) Communication Communication specificationsspecifications
ItemItem   SpecificationSpecification  
Transmission methodTransmission method   EIA-574 (or EIA-232, RS-232C)EIA-574 (or EIA-232, RS-232C)
 Asynchronou Asynchronous (start-stop transms (start-stop transmission),ission),
half-duplexhalf-duplex  
Transmission rateTransmission rate   1200, 2400, 4800, 9600 bps1200, 2400, 4800, 9600 bps  
Transmission codeTransmission code    ASCII ASCII  
Data lengthData length   7 bit, 8 bit7 bit, 8 bit  
ParityParity   Even, odd, noneEven, odd, none  
Stop bitStop bit   1 bit, 2 bit1 bit, 2 bit  
(2) Connections(2) Connections
(3) Connector(3) Connector
 A D-SUB 9p (ma A D-SUB 9p (male) is used as the le) is used as the connector to the caconnector to the cable on the able on the analyzer side.nalyzer side.
(Connector which should be attached to the analyzer side of (Connector which should be attached to the analyzer side of the communication cablethe communication cable
is D-SUB 9s is D-SUB 9s (female).)(female).)
(4) (4) Pin Pin assignmentassignment
Pin No.Pin No.
Signal Signal name name Pin Pin No.No.    9pins 25pins9pins 25pins Signal nameSignal name
casecase 11 Frame GND (FG)Frame GND (FG)
Receive data (RxD)Receive data (RxD) 2 2 2 2 33 Receive data (RxD)Receive data (RxD)
Transmit data (TxD)Transmit data (TxD) 3 3 3 3 22 Transmit data (TxD)Transmit data (TxD)
Data terminal ready (DTR)Data terminal ready (DTR) 4 4 4 4 2020 Data terminal ready (DTR)Data terminal ready (DTR)
Signal GND (SG)Signal GND (SG) 5 5 5 5 77 Signal GND (SG)Signal GND (SG)
Data set ready (DSR)Data set ready (DSR) 6 6 6 6 66 Data set ready (DSR)Data set ready (DSR)
Request to send (RTS)Request to send (RTS) 7 7 7 7 44 Request to send (RTS)Request to send (RTS)
Clear to send (CTS)Clear to send (CTS) 8 8 8 8 55 Clear to send (CTS)Clear to send (CTS)
Host sideHost side Analyzer side (9  Analyzer side (9 pin)pin)
HostHost Analyzer Analyzer
Communication cableCommunication cable
Boundary of responsibility(Free point)Boundary of responsibility (Free point)
  
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33 CCommunicommunicaattion ion SSettettinging
Communication setting for analyzer can be arranged on the RS232C screen of theCommunication setting for analyzer can be arranged on the RS232C screen of the
analyzer.analyzer.
Figure 3-1 RS232C screenFigure 3-1 RS232C screen
••   Number Number of of digits of digits of sample numbersample number
SMP SMP 3 3 : : Handles Handles the the sample sample number number with with the the last last 3 3 digitsdigits
SMP SMP 5 5 : : Uses Uses 5 5 digits digits for for the the sample sample numbernumber
SMP SMP 8 8 : : Uses Uses 8 8 digits digits for for the the sample sample numbernumber (recommended)(recommended)  
••   Number of Number of digits of digits of ID number(bar ID number(bar code)code)
BC BC 13 13 : : Transmits Transmits the the ID ID number number using using 13 13 digitsdigits
BC BC 18 18 : : Transmits Transmits the the ID ID number number using using 18 18 digitsdigits
BC BC 20 20 : : Transmits Transmits the the ID ID number number using using 20 20 digitsdigits (recommended)(recommended)  
BC BC NO NO : : Does Does not not send send the the ID ID numbernumber
••   Data Data lengthlength
8 8 BIT BIT : : Sets Sets the the data data length length to to 8 8 bitsbits
7 7 BIT BIT : : Sets Sets the the data data length length to to 7 7 bitsbits
••   Stop Stop bitbit
1 1 BIT BIT : : Sets Sets the the stop stop bit bit to to 11
2 2 BIT BIT : : Sets Sets the the stop stop bit bit to to 22
••  Parity  Parity
NONE NONE : : Sets Sets the the parity parity to to nonenone
ODD ODD : : Sets Sets the the parity parity to to odd odd numbersnumbers
EVEN EVEN : : Sets Sets the the parity parity to to even even numbersnumbers
••   Baud Baud raterate
1200 1200 : : Sets Sets the the baud baud rate rate to to 1200 1200 bpsbps
2400 2400 : : Sets Sets the the baud baud rate rate to to 2400 2400 bpsbps
4800 4800 : : Sets Sets the the baud baud rate rate to to 4800 4800 bpsbps
9600 9600 : : Sets Sets the the baud baud rate rate to to 9600 9600 bpsbps
••   Query Query with with IDID
: When this key is highlighted, a query with ID is executed and only: When this key is highlighted, a query with ID is executed and only
designated samples are designated samples are processed.processed.
••   Automatically Automatically transmittedtransmitted
: When : When highlightedhighlighted, results , results are automatically transmitted.are automatically transmitted.
  
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44 Communication modeCommunication mode
There are two communication modes, query mode, on which analyzer queries testThere are two communication modes, query mode, on which analyzer queries test
order to the host using sample ID after reading the bar-code on the sample, andorder to the host using sample ID after reading the bar-code on the sample, and
result transmission mode on which analyzer transmits result to the host every timeresult transmission mode on which analyzer transmits result to the host every time
result is obtained. Various formats compatible with the old models are available onresult is obtained. Various formats compatible with the old models are available on
the result transmission mode.the result transmission mode.
44 GGX fX formormat and old modeat and old model cl compaompattible forible formatmat
Five formats, GX format (standard), G9 format, G8 format, G7 format and GHbVFive formats, GX format (standard), G9 format, G8 format, G7 format and GHbV
 A1c2.2 compa A1c2.2 compatible format atible format are available are available as communication s communication formats. Select thformats. Select thee
desired format usingdesired format using TRANS MODETRANS MODE on the  on the PARAMETER screen of the analyzer.PARAMETER screen of the analyzer.
These formats are compatible with These formats are compatible with HI-LEVEL mode.HI-LEVEL mode.
Figure 4-1 PARAMETER Figure 4-1 PARAMETER screen(TRANS MODE)screen(TRANS MODE)
GX GX FORM: FORM: GX GX format format (default (default setting)setting)
G9 G9 FORM: FORM: G9 G9 format format (same (same as as G8 G8 FORM)FORM)
G8 G8 FORM: FORM: G8 G8 formatformat
G7 G7 FORM: FORM: G7 G7 formatformat
GHb-V GHb-V FORM: FORM: GHbV GHbV A1c2.2 A1c2.2 compatible compatible format format (Standard (Standard use)use)
GHb-V(SP): GHb-V(SP): GHbV GHbV A1c2.2 A1c2.2 compatible compatible format format (When (When “5 “5 digits”digits”
is selected for the is selected for the number of digits of samplenumber of digits of sample
number, if the sample is not number, if the sample is not CALIB, the sampleCALIB, the sample
number is extended by adding 0 to the top digitnumber is extended by adding 0 to the top digit
of the sample number. Refer to [6.2.5.GHbVof the sample number. Refer to [6.2.5.GHbV
compatible format] for details.)compatible format] for details.)
  
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4 24 2 Hi-LEVEL and RP modesHi-LEVEL and RP modes
The HI-LEVEL mode is available in GX format and the old model compatible formats.The HI-LEVEL mode is available in GX format and the old model compatible formats.
The HI-LEVEL mode is The HI-LEVEL mode is processed using Handshake protocol.processed using Handshake protocol.
RP mode is a dedicated communication mode for Tosoh Data Management ProgramRP mode is a dedicated communication mode for Tosoh Data Management Program
501RP(her501RP(hereafter 501RP). For models eafter 501RP). For models connectable to 501RP and settings connectable to 501RP and settings for 501RP,for 501RP,
please refer to 501RP’s manual.please refer to 501RP’s manual.
The HI-LEVEL or RP mode can be The HI-LEVEL or RP mode can be selected by settingselected by setting RP MODERP MODE on the on the
PARAMETER screen of the analyzer as below.PARAMETER screen of the analyzer as below.  Please make sure to set RP MODEPlease make sure to set RP MODE
as “NO” except when the analyzer is connected with 501RP.as “NO” except when the analyzer is connected with 501RP.  
Set Set RP RP MODE MODE as as “YES”: “YES”: RP RP modemode(only when connected with (only when connected with 501RP)501RP)  
Set Set RP RP MODE MODE as as “NO”: “NO”: HI-LEVEL HI-LEVEL modemode(except when connected with(except when connected with
501RP)501RP)  
  
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55 TTransmissransmissioion n protocprotocolol
Handshake protocol is used as transmission protocol.Handshake protocol is used as transmission protocol.
The control codes used in The control codes used in communicationcommunications are shown below.s are shown below.
CodeCode
(Hexadecimal)(Hexadecimal)
Name MeaningName Meaning
02 02 STX STX Text Text startstart
03 03 ETX ETX Text Text endend
04 04 EOT EOT Transmission Transmission endend
06 06 ACK ACK Normal Normal reception reception responseresponse
15 15 NAK NAK Abnormal Abnormal reception reception responseresponse
Note:Note:
If the host computer receives dust data, such as those caused by noise, from theIf the host computer receives dust data, such as those caused by noise, from the
analyzer, please be sure to process them properly by analyzer, please be sure to process them properly by the host computer.the host computer.
55 HandshakeHandshake
This protocol is used on tThis protocol is used on the analyzer.he analyzer.
CommunicatioCommunication n contentcontenttext text 
 or or   
Note:Note:
1. 1. i is the s the exclusion exclusion logic logic sum (sum (exclusive exclusive OR), OR), in chain character racter units, frunits, fromom
the start of the text to the start of the text to and consists of a 1 byte binary. Moreover, and consists of a 1 byte binary. Moreover,
since becomes the value of since becomes the value of 00~7F by hexadecimal, please00~7F by hexadecimal, please
process not to mistake for process not to mistake for the control code used in the control code used in transmissiontransmission
procedure.procedure.
2. 2. When When is is returned returned transmission transmission will be will be tried atried again gain up to up to 5 times.5 times.
 After 5 times will be transm> will be transmitted and the pritted and the protocol will beotocol will be
reinitialized.reinitialized.
3. 3. When When multiple multiple data data sets esets exist, will > will be be transmitted transmitted at that the ene end ofd of
each data set.each data set.
4. 4. The striThe string frong from the m the beginning beginning of the of the text to text to m must be ust be transmittedtransmitted
within 20 seconds. If this time limit is within 20 seconds. If this time limit is exceeded the protocoexceeded the protocol will bel will be
reinitialized.reinitialized.
5. 5. If there If there is no is no or or response response within 2within 20 se0 seconds, conds, willwill
be transmitted and the protocol will be be transmitted and the protocol will be reinitialized.reinitialized.
Example in the case of 1 data setExample in the case of 1 data set
 X> tt eexxtt 1 X>BCC> →→  
←←  >
> →→  
Example in the case of multiple data setsExample in the case of multiple data sets
 X> tt eexxtt 1 X>BCC> →→  
←←  >
 X> tt eexxtt 2 X>BCC> →→  
←←  >
::
::
 STX> tt exextt nn  C> →→  
  
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←←  >
> →→  
Example in the case of retransmission succeeded (1 retransmission)Example in the case of retransmission succeeded (1 retransmission)
 X> tt eexxtt 1 X>BCC> →→  
←←  >
 X> tt eexxtt 1 X>BCC> →→  
←←
  >
> →→  
Example in the case of retransmission failed (up to 5 retransmissions)Example in the case of retransmission failed (up to 5 retransmissions)
 X> tt eexxtt 1 X>BCC> →→  
←←  >
 X> tt eexxtt 1 X>BCC> →→  
←←  >
 X> tt eexxtt 1 X>BCC> →→  
←←  >
 X> tt eexxtt 1 X>BCC> →→  
←←  >
 X> tt eexxtt 1 X>BCC> →→  
←←  >
> →→  
Example in the case of ACK reception timeoutExample in the case of ACK reception timeout
 X> tt eexxtt 1 X>BCC> →→  
(20 seconds passed)(20 seconds passed)
> →→  
  
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66 CCommunommunicication foration formatmat
66 QueryQuery
First, an order request for the sample ID is transmitted to the host from theFirst, an order request for the sample ID is transmitted to the host from the
analyzer, then the analyzer waits for a analyzer, then the analyzer waits for a response from the host. If response from the host. If no responsesno responses
are given within 30 seconds, the analyzer will are given within 30 seconds, the analyzer will consider it that there is consider it that there is no orders forno orders for
the sample ID.the sample ID.
To activate query mode, turn theTo activate query mode, turn the QUERYQUERY key on (highlighted) on the RS232C key on (highlighted) on the RS232C
screen.screen.
 Analyzer Analyzer→→ host host
InformationInformation
Number ofNumber of
characterscharacters
ContentContent
GG 1 1 Query Query code code (Fixed (Fixed as as the the charactercharacter GG))
,, 1 Comma1 Comma
[Sample [Sample ID] ID] 20 20 Aligned Aligned left; left; characters characters to to the the right right are are filled filled with with spaces spaces when when 2020
characters are not used. No zero suppressioncharacters are not used. No zero suppression
HostHost →→ analyzer analyzer
InformationInformation
Number ofNumber of
characterscharacters
ContentContent
AA 1 1 Order Order code code (Fixed (Fixed as as the the charactercharacter AA))
,, 1 Comma1 Comma
[Sample [Sample ID] ID] 20 20 Aligned Aligned left; left; characters characters to to the the right right are are filled filled with with spaces spaces when when 2020
characters are not used. No zero suppressioncharacters are not used. No zero suppression
Set the sample ID for which the analyzer has requestedSet the sample ID for which the analyzer has requested
,, 1 Comma1 Comma
[[SSaammpplle e ttyyppee]] 2 2 000 0 = = WWhhoole le bblolooodd, , 001 1 = = DDili luutteed d ((RReeffeer r tto o nnoottee))
[Container[Container
type]type]
2 2 00 00 = = Primary Primary tube, tube, 01 01 = = Sample Sample cup cup (Refer (Refer to to note)note)
[Reserved] [Reserved] 2 2 (Fixed (Fixed as as spaces)spaces)
,, 1 Comma1 Comma
[A1c [A1c item] item] 2 2 00 00 = = No No request request 01 01 = = RequestRequest
[Reserved] [Reserved] 6 6 (Fixed (Fixed as as spaces)spaces)
,, 1 Comma1 Comma
[Reserved] [Reserved] 8 8 (Fixed (Fixed as as spaces)spaces)
Note:Note:   Sample aSample and contand container type iner type designations designations are subare subject to thject to the SMP e SMP MODE on MODE on thethePARAMETER screen of the analyzer. Refer to PARAMETER screen of the analyzer. Refer to "5.1.1 Sample and container"5.1.1 Sample and container
type designation" for details.type designation" for details.
Communication exampleCommunication example
(Analyzer) (Host)(Analyzer) (Host)
STX>GG,, II DD-- 012301234567456789 89 ETX>C> →→  
←←  >
> →→  
←←   STX>A,A, II DD-- 0123456789 0123456789 ,, 0001 0001 ,, 01 01 , , ETX>C>
 →→  
←←  >
  
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6 1 16 1 1 SSampample ale and cnd contontaineainer r ttype ype dedessignationignation
The sample type (diluted, whole blood) and container type (sample cup, primaryThe sample type (diluted, whole blood) and container type (sample cup, primary
tube) designated by the query will not be tube) designated by the query will not be applied if they are not applied if they are not the same as thosethe same as those
defined by SMP MODE on the PARAMETER screen of defined by SMP MODE on the PARAMETER screen of the analyzer as below. Inthe analyzer as below. In
such a case, those defined by SMP MODE will be used.such a case, those defined by SMP MODE will be used.
Figure 6-1 PARAMETER screen (SMP MODE)Figure 6-1 PARAMETER screen (SMP MODE)
SamplesSamples
Setting Setting Sample Sample type type Container Container type type QueryQuery
STANDARD STANDARD Judged Judged by by the the samplesample
sensors (SAMP1, SAMP2) ifsensors (SAMP1, SAMP2) if
it is a sample cup or ait is a sample cup or a
primary tube. Sample in aprimary tube. Sample in a
sample cup is considered assample cup is considered as
a diluted sample and that ina diluted sample andthat in
a primary tube is considereda primary tube is considered
as a whole blood sample.as a whole blood sample.
Judged by the sampleJudged by the sample
sensors.sensors.
YesYes
WHOLE WHOLE BLD BLD Fixed Fixed as as a a whole whole bloodblood
samplesample
Judged by the sampleJudged by the sample
sensors.sensors.
YesYes
DILUTED DILUTED Fixed Fixed as as a a diluted diluted sample sample Judged Judged by by the the samplesample
sensors.sensors.
YesYes
HOST HOST Designated Designated by by the the host host Judged Judged by by the the samplesample
sensors.sensors.
YesYes
Calibrator(seCalibrator(see Note-1 e Note-1 below)below)  
Setting Setting Sample Sample type type Container Container type type QueryQuery
Will be ignoredWill be ignored Fixed Fixed as as a a diluted diluted sample sample Fixed Fixed as as a a sample sample cup cup No No (see(see
Note-2 below)Note-2 below)
Note:Note:  
1. 1. Samples, Samples, which which are are set set on on calibrator calibrator holders, holders, are are processed processed asas
calibrators. Calibratorcalibrators. Calibrators have to s have to be set in be set in sample cups.sample cups.
2. 2. Even iEven if quef query is ry is designated, designated, no no query query will be will be made made for for calibrators.calibrators.
  
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6 26 2 Measurement resultsMeasurement results
GX format or G9 format, G8 format, G7 format or GHbV compatible format may beGX format or G9 format, G8 format, G7 format or GHbV compatible format may be
selected as the data format.selected as the data format.
GX format or G8 format is recommended for this analyzer.GX format or G8 format is recommended for this analyzer.
6 26 2 GX formatGX format
6622 HI-LEVEL modeHI-LEVEL mode
The data format is shown below.The data format is shown below.
Information NumbInformation Number er of of characters characters ContentContent
[Analyzer name][Analyzer name] 12 12 “HLC-723GX “HLC-723GX ””
[Operation [Operation mode] mode] 1 1 1(=VAR 1(=VAR mode), mode), FixedFixed
[Sampling [Sampling position] position] 1 1 2(=table), 2(=table), FixedFixed
[Specimen [Specimen type] type] 1 1 0=specimen, 0=specimen, 1=calibrator1=calibrator
[Percent [Percent decimal] decimal] 1 1 1 1 or or 2 2 (number (number of of decimal decimal places)places)
[Sample [Sample number] number] 3,5,8 3,5,8 Sample Sample number number (See (See Note-1 Note-1 below)below)
(Recommended : 8•(Recommended : 8• j j
[1st [1st componencomponent] t] 66
[2nd [2nd component] component] 66
[3rd [3rd component] component] 66
[4th [4th componencomponent] t] 66
[5th [5th componencomponent] t] 66
[6th [6th componencomponent] t] 66
[7th [7th componencomponent] t] 66
[8th [8th componencomponent] t] 66
[9th [9th componencomponent] t] 66
[10th [10th component] component] 66
[11th [11th component] component] 66
[12th [12th component] component] 66
[Total [Total A1%] A1%] 66
SA1c(JDS)% 6SA1c(JDS)% 6
SA1c(NGSP)% 6SA1c(NGSP)% 6
SA1c(Mono SA1c(Mono S)% S)% 66
[Reserved] 6[Reserved] 6
[Reserved] 6[Reserved] 6
[Reserved] 6[Reserved] 6
[Reserved] 6[Reserved] 6
Spaces or 0.0 ~ 100.0 or 0.00 ~ 100.00Spaces or 0.0 ~ 100.0 or 0.00 ~ 100.00
(aligned right) (See Note-3 and -4 below)(aligned right) (See Note-3 and -4 below)
SA1c(IFCC)SA1c(IFCC)
mmol/molmmol/mol
5 5 Spaces Spaces or or 0 0 ~ ~ 99999 99999 or or 0.0 0.0 ~ ~ 999.9999.9
(aligned right)(aligned right)
[CALIB [CALIB type] type] 2 2 00=JDS, 00=JDS, 01=NGSP, 01=NGSP, 02=IFCC(JDS),02=IFCC(JDS),
03=IFCC(NGSP)03=IFCC(NGSP), , 04=Mono S,04=Mono S,
05=IFCC(Mon05=IFCC(Mono o S), S), 06=NGSP(JDS)06=NGSP(JDS),,
07=JDS(NGSP)07=JDS(NGSP)
[Reserved] [Reserved] 2 2 (Spaces, (Spaces, fixed)fixed)
[Flag [Flag judgment] judgment] 2 2 00~99 00~99 (00=normal) (00=normal) (See (See Note-7 Note-7 below)below)
[Reserved] [Reserved] 4 4 (Spaces, (Spaces, fixed)fixed)
[Sample [Sample ID] ID] 0,13,18,20 0,13,18,20 Aligned Aligned left; left; characters characters to to the the right right areare
filled with spaces when 20 charactersfilled with spaces when 20 characters
are not used. No zero suppression (Seeare not used. No zero suppression (See
Note-5 below) (Recommended : 20)Note-5 below) (Recommended : 20)
Note:Note:
1. 1. The The number number of of digits used digits used for the for the sample number sample number is set is set by by thethe
SMPx key on the SMPx key on the RS232C screen of the analyzer.RS232C screen of the analyzer.
Various digit conversion rules are Various digit conversion rules are shown below.shown below.
  
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Specimen typeSpecimen type
Actual sampleActual sample
numbernumber
In the caseIn the case
of 3 digitsof 3 digits
In the case of 5In the case of 5
digits (put 0 indigits (put 0 in
second digit)second digit)
In the case ofIn the case of
8 digits8 digits
Normal Normal samples samples 0001 0001 ~ ~ 7999 7999 001 001 ~ ~ 999999
(last 3 digits)(last 3 digits)
00001 00001 ~ ~ 70999 70999 MMDD0001 MMDD0001 ~~
MMDD7999MMDD7999
CALIB CALIB 9001 9001 ~ ~ 9999 9999 001 001 ~ ~ 999999
(last 3 digits)(last 3 digits)
90001 90001 ~ ~ 90999 90999 MMDD9001 MMDD9001 ~~
MMDD9999MMDD9999
*MMDD is the date of measurement. (MM: month, DD: day)*MMDD is the date of measurement. (MM: month, DD: day)
2. 2. The The number number of digof digits used its used for for each each percent percent value value and and IFCCIFCC
value is subject to PERCENT value is subject to PERCENT DECIMAL of the PARAMETERDECIMAL of the PARAMETER
screen as shown below.screen as shown below.
PERCENT PERCENT DECIMAL DECIMAL Percent Percent value value IFCC IFCC valuevalue
1 1 0.0-100.0 0.0-100.0 0-999990-99999
2, 2, 9 9 0.00-100.00 0.00-100.00 0-999990-99999
8 8 0.00-100.00 0.00-100.00 0.0-999.90.0-999.9
Figure 6-2 PARAMETER screen (PERCENT DECIMAL)Figure 6-2 PARAMETER screen (PERCENT DECIMAL)
3. 3. Transmitted Transmitted components components (1st (1st to 1to 12 2 th) th) are are set bset by Ty TRANSRANS
COMPONENT of the PARAMETER screen, as shown in COMPONENT of the PARAMETER screen, as shown in the listthe list
below. Only two patterns, “23456789A---” or “1234567-----”, arebelow. Only two patterns, “23456789A---” or “1234567-----”, areavailable on GX format.available on GX format.
Figure 6-3 PARAMETER screen (TRANS COMPONENT)Figure 6-3 PARAMETER screen (TRANS COMPONENT)
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 14/2514/25
4. 4. Each Each percent percent value value is reis replaced placed with spwith spaces aces of the of the number number ofof
characters if the characters if the measurememeasurement result nt result satisfied the conditionsatisfied the condition
formula for level 1 flag. (Replacement with zero (0.0) from formula for level 1 flag. (Replacement with zero (0.0) from thethe
spaces is available. Refer to [6.2.6 spaces is available. Refer to [6.2.6 Flag level andFlag level and
communicatiocommunication] n] for details).for details).
5. 5. The nThe number umber of digits of digits used used for the for the sample sample ID is ID is set by set by the BCxxthe BCxx
key on the RS232C screen of key on the RS232C screen of the analyzer.the analyzer.
6. 6. When When multiple multiple data data sets asets are re to bto be e transmitted, transmitted, EOT EOT isis
transmitted after the last data set.transmitted after the last data set.
7. 7. If If the the measuremmeasurement ent result result satisfied satisfied two two or or more more conditioncondition
formula for flag defined on FLAG screen, only one flag3 digits)
90001 90001 ~ ~ 90999 90999 MMDD9001 MMDD9001 ~~
MMDD9999MMDD9999
*MMDD is the date of measurement. (MM: month, DD: day)*MMDD is the date of measurement. (MM: month, DD: day)
2. 2. The The number number of diof digits usegits used for d for each each component component value value is subis subjectject
to PERCENT DECIMAL of to PERCENT DECIMAL of the PARAMETER screen as shownthe PARAMETER screen as shown
below.below.
PERCENT PERCENT DECIMAL DECIMAL Percent Percent value value IFCC IFCC valuevalue
1 1 0.0-100.0 0.0-100.0 0-999990-99999
2, 2, 9 9 0.00-100.00 0.00-100.00 0-9999990-999999
8 8 0.00-100.00 0.00-100.00 0.0-9999.90.0-9999.9
3. 3. Transmitted Transmitted components components (1st (1st to 1to 10 0 th) th) are are set set by by TRANSTRANS
COMPONENT of the PARAMETER screen, as shown in COMPONENT of the PARAMETER screen, as shown in the listthe list
below. Only two patterns, “23456789AT--” or “1234567--T--”, arebelow. Only two patterns, “23456789AT--” or “1234567--T--”, are
available on G8, G9 and G7 format.available on G8, G9 and G7 format.
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 17/2517/25
(*1) When TRANS CONFIG of the PARAMETER screen is set to(*1) When TRANS CONFIG of the PARAMETER screen is set to
“SA1C->IFCC”, this value is in “SA1C->IFCC”, this value is in IFCC as 0-99999 or 0-999999 orIFCC as 0-99999 or 0-999999 or
0.0-9999.9.0.0-9999.9.
(*2) When TRANS CONFIG of the PARAMETER screen is set to(*2) When TRANS CONFIG of the PARAMETER screen is set to
“BLK->IFCC”, this value is in “BLK->IFCC”, this value is in IFCC as 0-99999 or 0-999999 orIFCC as 0-99999 or 0-999999 or
0.0-9999.9.0.0-9999.9.
(*3) When TRANS CONFIG of the PARAMETER screen is set to(*3) When TRANS CONFIG of the PARAMETER screen is set to
“TA1->IFCC”, this value is in “TA1->IFCC”, this value is in IFCC as 0-99999 or 0-999999 orIFCC as 0-99999 or 0-999999 or
0.0-9999.9.0.0-9999.9.
Figure 6-4 PARAMETER screen (TRANS Figure 6-4 PARAMETER screen (TRANS CONFIG)CONFIG)
4. 4. Each Each percent percent value value is reis replaced placed with spwith spaces aces of the of the number number ofof
characters, if the characters, if the measurememeasurement result nt result satisfied the conditionsatisfied the condition
formula for level 1 flag. (Replacement with zero (0.0) from formula for level 1 flag. (Replacement with zero (0.0) from thethe
spaces is available. Refer to [6.2.6 spaces is available. Refer to [6.2.6 Flag level andFlag level and
communicationcommunication] ] for details).for details).
5. 5. The nThe number umber of digits of digits used used for the for the sample sample ID is ID is set by set by the BCthe BCxxxx
key on the RS232C screen of key on the RS232C screen of the analyzer.the analyzer.
6. 6. When When multiple multiple data data sets sets are are to to be be transmitted, transmitted, EOT EOT isis
transmitted after the last data set.transmitted after the last data set.
7. 7. If If the the measuremmeasurement ent result result satisfied satisfied two two or or more more conditioncondition
formula for flag defined on FLAG screen, only one flag formula for flag defined on FLAG screen, only one flag code iscode is
TRANS COMPONENT:TRANS COMPONENT:
1 2 3 4 5 6 7 - - T - -1 2 3 4 5 6 7 - - T - -
TRANS COMPONENT:TRANS COMPONENT:
2 3 4 5 6 7 8 9 A T - -2 3 4 5 6 7 8 9 A T - -
1st 1st component component FP% FP% A1a%A1a%
2nd 2nd component component A1a% A1a% A1b%A1b%
3rd 3rd component component A1b% A1b% F%F%
4th 4th component component F% F% LA1c%LA1c%
5th 5th component component LA1c% LA1c% SA1c% SA1c% or or IFCC IFCC (*1)(*1)
6th 6th component component SA1c% SA1c% or or IFCC IFCC (*1) (*1) A0%A0%
7th 7th component component A0% A0% H-V0%H-V0%
8th 8th component component Reserved Reserved H-V1%H-V1%
9th 9th component component Reserved Reserved or or IFCC IFCC (*2) (*2) H-V2%H-V2%
10th 10th component component Total Total A1% A1% or or IFCC IFCC (*3) (*3) Total Total A1% A1% or or IFCC IFCC (*3)(*3)
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 18/2518/25
transmitted to the host according to the transmitted to the host according to the priorities of the flags.priorities of the flags.
The level 1 flag is given priority over the level 0 flag. If two orThe level 1 flag is given priority over the level 0 flag. If two or
more condition formula of the same level of flag more condition formula of the same level of flag were satisfied, awere satisfied, a
higher priority is given to the flag set lowest in the table on thehigher priority is given to the flag set lowest in the table on the
FLAG screen. (Refer to [6.2.6 Flag level and FLAG screen. (Refer to [6.2.6 Flag level and communicatiocommunication] forn] for
details)details)
Communication exampCommunication examples are the case les are the case that TRANS COMPONENT of the PARAMETERthat TRANS COMPONENT of the PARAMETER
screen is set screen is set as “23456789AT--”.as “23456789AT--”.
CommunicatioCommunication example: 1 n example: 1 data setdata set
(Analyzer) (Host)(Analyzer) (Host)
X>1211210260260000001111110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 33111100.. 00
11110.0. 0011110.0. 0011117.7. 30300B0BAARR-- CCOODDE-E- II DD111111111111111111>   
 
>   
CommunicatioCommunication example: 3 n example: 3 data setsdata sets
(Analyzer) (Host)(Analyzer) (Host)
X>1211210260260000001111110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 33111100.. 00
11110.0. 0011110.0. 0011117.7. 30300B0BAARR-- CCOODDE-E- II DD111111111111111111>   
 
X>1211210260260000002211110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 33111100.. 00
11110.0. 0011110.0. 0011117.7. 30300B0BAARR-- CCOODDE-E- II DD111111111111111111>   
 
X>1211210260260000003311110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 33111100.. 00
11110.0. 0011110.0. 0011117.7. 30300B0BAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
CommunicatioCommunication example: decimal place of percent value is n example: decimal place of percent value is twotwo
(Analyzer) (Host)(Analyzer) (Host)
X>12112102602600000011111100.. 6644111100.. 8822111100.. 7766111122.. 1177111155.. 7799119900.. 3333111100.. 0000
111100.. 0000111100.. 000011117.7. 25250000BBAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
CommunicatioCommunication example: TRANS CONFIG is n example: TRANS CONFIG is set to “SA1C->IFCC”set to “SA1C->IFCC”
(Analyzer) (Host)(Analyzer) (Host)
X>1211210260260000001111110.0. 6611110.0. 8811110.0. 8811112.2. 221111 4040119900.. 33111100.. 00
11110.0. 0011110.0. 0011117.7. 30300B0BAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
CommunicatioCommunication example: TRANS n example: TRANS CONFIG is set CONFIG is set to “TA1->IFCC”to “TA1->IFCC”
(Analyzer) (Host)(Analyzer) (Host)
X>1211210260260000001111110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 33111100.. 00
11110.0. 0011110.0. 001111AA4004000B0BAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 19/2519/25
6 2 36 2 3 G9 formatG9 format
623623 HI-LEVEL modeHI-LEVEL mode
The data format is the sThe data format is the same as that of ame as that of G8 format. (Refer to “6.2.2.1 HI-LEVELG8format. (Refer to “6.2.2.1 HI-LEVEL
mode”)mode”)
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 20/2520/25
6 2 46 2 4 G7 formatG7 format
624624 HI-LEVEL modeHI-LEVEL mode
The data format is the sThe data format is the same as that of ame as that of G8 format. (Refer to “6.2.2.1 HI-LEVELG8 format. (Refer to “6.2.2.1 HI-LEVEL
mode”)mode”)
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
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6 2 56 2 5 GGHHbV cbV compaompattible forible formatmat
625625 HI-LEVEL modeHI-LEVEL mode
The data format is shown below.The data format is shown below.
IInnffoorrmmaattiioon n NNuummbbeer r oof f cchhaarraacctteerrss CCoonntteenntt
[Sample [Sample number] number] 3, 3, 5, 5, 8 8 Sample Sample number number (See (See Note-1 Note-1 below)below)
(Recommended : 8)(Recommended : 8)
[1st [1st component] component] 5, 5, 66
[2nd [2nd componencomponent] t] 5, 5, 66
[3rd [3rd component] component] 5, 5, 66
[4th [4th componencomponent] t] 5, 5, 66
[5th [5th componencomponent] t] 5, 5, 66
[6th [6th componencomponent] t] 5, 5, 66
[7th [7th componencomponent] t] 5, 5, 66
[8th [8th componencomponent] t] 5, 5, 66
[9th [9th componencomponent] t] 5, 5, 66
Spaces or 0.0 ~ 100.0 or 0.00 ~ 100.00Spaces or 0.0 ~ 100.0 or 0.00 ~ 100.00
(aligned right) (See Note-3 below)(aligned right) (See Note-3 below)
when IFCC value is transmitted, spaceswhen IFCC value is transmitted, spaces
or 0 ~ 99999 or 0 ~ 999999or 0 ~ 99999 or 0 ~ 999999
or 0.0 ~ 9999.9or 0.0 ~ 9999.9
[Flag [Flag judgment] judgment] 5 5 00 00 ~ ~ 99 99 (00 (00 = = normal) normal) (aligned (aligned left,left,
remaining characters filled with spaces)remaining characters filled with spaces)
[10th [10th component] component] 5, 5, 6 6 Spaces Spaces or or 0.0 0.0 ~ ~ 100.0 100.0 or or 0.00 0.00 ~ ~ 100.00100.00
(aligned right) (See Note-3 below)(aligned right) (See Note-3 below)
when IFCC value is when IFCC value is transmitted, spacestransmitted, spaces
or 0 ~ 99999 or 0 ~ 999999or 0 ~ 99999 or 0 ~ 999999
or 0.0 ~ 9999.9or 0.0 ~ 9999.9[Sample [Sample ID] ID] 0, 0, 13, 13, 18, 18, 20 20 Aligned Aligned left; left; characters characters to to the the right right areare
filled with spaces when all filled with spaces when all characters arecharacters are
not used. No zero suppression (Seenot used. No zero suppression (See
Note-5 below)Note-5 below)
Note:Note:
1. 1. The nThe number umber of digits of digits used used for the for the sample sample number number is set is set by theby the
SMPx key on the SMPx key on the RS232C screen of the analyzer.RS232C screen of the analyzer.
Various digit conversion rules are shown below.Various digit conversion rules are shown below.
Specimen typeSpecimen type
Actual sampleActual sample
numbernumber
In the caseIn the case
of 3 digitsof 3 digits
In the case of 5In the case of 5
digits (put 0 indigits (put 0 in
second digit)second digit)
In the case of 8In the case of 8
digitsdigits
Normal Normal samples samples 0001 0001 ~ ~ 7999 7999 001 001 ~ ~ 999999
(last 3 digits)(last 3 digits)
00001 ~ 7099900001 ~ 70999
(See note)(See note)
MMDD0001 ~MMDD0001 ~
MMDD7999MMDD7999
CALIB CALIB 9001 9001 ~ ~ 9999 9999 001 001 ~ ~ 999999
(last 3 digits)(last 3 digits)
90001 90001 ~ ~ 90999 90999 MMDD9001 MMDD9001 ~~
MMDD9999MMDD9999
*MMDD is the date of measurement. (MM: month, DD: day)*MMDD is the date of measurement. (MM: month, DD: day)
When TRANS MODE of PARAMETER screen ofWhen TRANS MODE of PARAMETER screen of
analyzer is set to “GHb-V(SP)”, only for normal samplesanalyzer is set to “GHb-V(SP)”, only for normal samples
the actual sample number is set to 00001-07999.the actual sample number is set to 00001-07999.
2. 2. The The number number of diof digits usegits used for d for each each component component value value is subis subjectject
to PERCENT DECIMAL of to PERCENT DECIMAL of the PARAMETER screen as shownthe PARAMETER screen as shown
below.below.
PERCENT PERCENT DECIMAL DECIMAL Percent Percent value value IFCC IFCC valuevalue
1 1 0.0-100.0 0.0-100.0 0-999990-99999
2, 2, 9 9 0.00-100.00 0.00-100.00 0-9999990-999999
8 8 0.00-100.00 0.00-100.00 0.0-9999.90.0-9999.9
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 22/2522/25
3. 3. Transmitted Transmitted components components (1st (1st to 1to 10 0 th) th) are are set set by by TRANSTRANS
COMPONENT of the PARAMETER screen, as shown in COMPONENT of the PARAMETER screen, as shown in the listthe list
below. Only two patterns, “23456798AT--” or “23467----T--”, arebelow. Only two patterns, “23456798AT--” or “23467----T--”, are
available on GHb-V available on GHb-V compatible format.compatible format.
(*1) When TRANS CONFIG of the PARAMETER screen is set to(*1) When TRANS CONFIG of the PARAMETER screen is set to
“SA1C->IFCC”, this value is in “SA1C->IFCC”, this value is in IFCC as 0-99999 or 0-999999 orIFCC as 0-99999 or 0-999999 or
0.0-9999.9.0.0-9999.9.
(*2) When TRANS CONFIG of the PARAMETER screen is set to(*2) When TRANS CONFIG of the PARAMETER screen is set to
“BLK->IFCC”, this value is in “BLK->IFCC”, this value is in IFCC as 0-99999 or 0-999999 orIFCC as 0-99999 or 0-999999 or
0.0-9999.9.0.0-9999.9.
(*3) When TRANS CONFIG of the PARAMETER screen is set to(*3) When TRANS CONFIG of the PARAMETER screen is set to
“TA1->IFCC”, this value is in “TA1->IFCC”, this value is in IFCC as 0-99999 or 0-999999 orIFCC as 0-99999 or 0-999999 or
0.0-9999.9.0.0-9999.9.
4. 4. Each Each percent percent value value is reis replaced placed with spwith spaces aces of the of the number number ofof
characters, if the characters, if the measurememeasurement result nt result satisfied the conditionsatisfied the condition
formula for level 1 flag. (Replacement with zero (0.0) from formula for level 1 flag. (Replacement with zero (0.0) from thethe
spaces is available. Refer to [6.2.6 spaces is available. Refer to [6.2.6 Flag level andFlag level and
communicationcommunication] ] for details).for details).
5. 5. The nThe number umber of digits of digits used used for the for the sample sample ID is ID is set by set by the BCthe BCxxxx
key on the RS232C screen of key on the RS232C screen of the analyzer.the analyzer.
6. 6. When When multiple multiple data data sets sets are are to to be be transmitted, transmitted, EOT EOT isis
transmitted after the last data set.transmitted after the last data set.
7. 7. If If the the measuremmeasurement ent result result satisfied satisfied two two or or more more conditioncondition
formula for flag defined on FLAG screen, only one flag formula for flag defined on FLAG screen, only one flag code iscode is
transmitted to the host according to the transmitted to the host according to the priorities of flags. Thepriorities of flags. The
level 1 flag is given priority over the level 0 flag. If two level 1 flag is given priority over the level 0 flag. If two or moreor more
condition formula of the same level of fcondition formula of the same level of flag were satisfied, alag were satisfied, a
higher priorihigher priority is given to the flty is given to the flag set lowest in the table of theag set lowest in the table of the
FLAG screen. (Refer to [6.2.6 Flag level and FLAG screen. (Refer to [6.2.6 Flag level and communicatiocommunication] forn] for
details)details)
TRANS COMPONENT:TRANS COMPONENT:
2 3 4 6 7 - - - - T - -2 3 4 6 7 - - - - T - -
TRANS COMPONENT:TRANS COMPONENT:
2 3 4 5 6 7 9 8 A T - -2 3 4 5 6 7 9 8 A T - -
1st 1st componencomponent t A1a% A1a% A1a%A1a%
2nd 2nd component component A1b% A1b% A1b%A1b%
3rd 3rd component component F% F% F%F%
4th 4th component component SA1c%SA1c% or or IFCC IFCC (*1) (*1) LA1c%LA1c%
5th 5th component component A0% A0% SA1c% SA1c% or or IFCC IFCC (*1)(*1)
6th 6th component component Reserved Reserved A0%A0%
7th 7th component component Reserved Reserved H-V1%H-V1%
8th 8th component component Reserved Reserved H-V0%H-V0%
9th 9th component component Reserved Reserved or or IFCC IFCC (*2) (*2) H-V2%H-V2%
10th 10th component component Total Total A1% A1% or or IFCC IFCC (*3) (*3) Total Total A1% A1% or or IFCC IFCC (*3)(*3)
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 23/2523/25
Communication exampCommunication examples are the case les are the case that TRANS COMPONENT of the PARAMETERthat TRANS COMPONENT of the PARAMETER
screen is set screen is set as “23456798AT--”.as “23456798AT--”.
CommunicatioCommunication example: 1 n example: 1 data setdata set
(Analyzer) (Host)(Analyzer) (Host)
X>102102600600010111110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 3311110.0. 00111100.. 00
111100.. 00000011111111117.7. 3B3BAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
CommunicatioCommunication example: 3 n example: 3 data setsdata sets
(Analyzer) (Host)(Analyzer) (Host)
X>102102600600010111110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 3311110.0. 00111100.. 00
111100.. 00000011111111117.7. 3B3BAARR-- CCOODDE-E- II DD111111111111111111C>   
 
X>102102600600020211110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 3311110.0. 00111100.. 00
111100.. 00000011111111117.7. 3B3BAARR-- CCOODDE-E- II DD111111111111111111>   
 
X>102102600600030311110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 3311110.0. 00111100.. 00
111100.. 00000011111111117.7. 3B3BAARR-- CCOODDE-E- II DD111111111111111111>   
 
>   
CommunicatioCommunication example: decimal place of percent value is n example: decimal place of percent value is twotwo
(Analyzer) (Host)(Analyzer) (Host)
X>1021026006000101111100.. 6644111100.. 8822111100.. 7766111122.. 1177111155.. 7799119900.. 3333111100.. 0000111100.. 0000
11110.0. 0000000011111111117.7. 2525BBAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
CommunicatioCommunication example: TRANS CONFIG is n example: TRANS CONFIG is set to “SA1C->IFCC”set to “SA1C->IFCC”
(Analyzer) (Host)(Analyzer) (Host)
X>102102600600010111110.0. 6611110.0. 8811110.0. 8811112.2. 221111114040119900.. 3311110.0. 00111100.. 00
111100.. 00000011111111117.7. 3B3BAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
CommunicatioCommunication example: TRANS n example: TRANS CONFIG is set CONFIG is set to “TA1->IFCC”to “TA1->IFCC”
(Analyzer) (Host)(Analyzer) (Host)
X>102102600600010111110.0. 6611110.0. 8811110.0. 8811112.2. 2211115.5. 88119900.. 3311110.0. 00111100.. 00
111100.. 00000011111111111140B40BAARR-- CCOODDE-E- II DD111111111111111111C>   
 
>   
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 24/2524/25
6 2 66 2 6 FFlag lag level alevel and cnd commuommunicanicattionion
626626 Flag levelFlag level
Each flag can be set as level 0 flag or Each flag can be set as level 0 flag or level 1 flag on FLAG screen.level 1 flag on FLAG screen.
Figure 6-5 FLAG screenFigure 6-5 FLAG screen
Flag level 0Flag level 0
Flag level 1Flag level 1
If the measurement result satisfied two or If the measurement result satisfied two or more condition formula for flag definedmore condition formula for flag defined
on the FLAG screen, only one flag on the FLAG screen, only one flag code is transmitted to code is transmitted to the host according to thethe host according to thepriorities of flags. The level 1 flag is given priority over the level 0 flag. If two orpriorities of flags. The level 1 flag is given priority over the level 0 flag. If two or
more condition formula of the same level of more condition formula of the same level of flag were satisfied, a higher priority isflag were satisfied, a higher priority is
given to the flag set lowest in the table of the given to the flag set lowest in the table of the FLAG screen.FLAG screen.
For example, when the measurement result satisfied the conditions defined in theFor example, when the measurement result satisfied the conditions defined in the
1st row and 3rd row of the table in Figure 6-5, “40” is transmitted to the host as the1st row and 3rd row of the table in Figure 6-5, “40” is transmitted to the host as the
flag code.flag code.
If you need to If you need to change the priority of flag to change the priority of flag to be transmitted, please arrange thebe transmitted, please arrange the
order of rows in the order of rows in the table on the FLAG screen carefully studying the table on the FLAG screen carefully studying the cases.cases.
6 2 6 26 2 6 2 FFlalag lg leevevel al and #End #ERR RR TTRANS FRANS FOORMRM
If the measurement result satisfied the condition formula for the level If the measurement result satisfied the condition formula for the level 0 flag, the0 flag, the
numeric value is transmitted to the host numeric value is transmitted to the host computer as the result value. But, if computer as the result value. But, if thethe
measurememeasurement result satisfied the condition formula for nt result satisfied the condition formula for the level 1 flag, the level 1 flag, spaces orspaces or
zero value is transmitted as the result. It is defined by #ERR TRANS FORM on thezero value is transmitted as the result. It is defined by #ERR TRANS FORM on the
PARAMETER screen of the analyzer which, spaces or PARAMETER screen of the analyzer which, spaces or zero, is transmitted in zero, is transmitted in thisthis
case.case.
Figure 6-6 PARAMETER screen (#ERR Figure 6-6 PARAMETER screen (#ERR TRANS FORM)TRANS FORM)
  
HOST CONNECTION SPECIFICATIONSHOST CONNECTION SPECIFICATIONS   HLC-723GX HLC-723GX Rev.2Rev.2  
TOSOH TOSOH CORPORATION CORPORATION Bioscience Bioscience Division Division Page Page 25/2525/25
#ERR #ERR TRANS TRANS FORM FORM ZERO ZERO : : When When the the result result satisfied satisfied the the condition condition formulaformula
for the level 1 flag, zero is transmitted as thefor the level 1 flag, zero is transmitted as the
result value (percent value).result value (percent value).
#ERR #ERR TRANS TRANS FORM FORM SPACE SPACE : : When When the the result result satisfied satisfied the the condition condition formulaformula
for the level 1 flag, spaces are transmitted asfor the level 1 flag, spaces are transmitted as
the result value the result value (percent value).(percent value).
The number of digits used for each percent value is subject to the set value byThe number of digits used for each percent value is subject to the set value by
PERCENT DECIMAL on the PARAMETER screen. A PERCENT DECIMAL on the PARAMETER screen. A communication exampcommunication example whenle when
the measurement result satisfied the condition formula for the level 1 the measurement result satisfied the condition formula for the level 1 flag is shownflag is shown
below.below.
Communication exampCommunication example, #ERR TRANS FORM le, #ERR TRANS FORM set to “SPACE” (The part shown set to “SPACE” (The part shown inin
gray: filled with spaces)gray: filled with spaces)
(Analyzer) (Host)(Analyzer) (Host)
X>HHLLC-C- 723723GGXXAAAAAA120110260001120110260001AAAAAA0.0. 91911A1A1.1. 01011A1A0.0. 91911A1A1.1. 717111110.0. 515118186.6.
6A6AAAAA0.0. 0 A0 AAA0.0. 0 A0 AAA0.0. 0 A0 AAA0.0. 0 A0 AAA0.0.0 A0 AAA0.0. 0A0AAA12.12. 4A4AAAAA0.0. 0A0AAA10.10. 5A5AAAAA0.0. 0A0AAAAA
0.0. 0A0AAAAA0.0. 0A0AAAAA0.0. 0A0AAAAA0.0. 0A0AAAAA92920101AAAA0101AAAAAAAABBAARR-- CCOODDE-E- II DD111111111111111111
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CommunicatioCommunication example, #ERR TRANS FORM set n example, #ERR TRANS FORM set to “ZERO”to “ZERO”
(Analyzer) (Host)(Analyzer) (Host)
X>HHLLC-C- 723723GGXXAAAAAA120110260001120110260001AAAAAA0.0. 001111AA0.0. 001111AA0.0. 001111AA0.0. 001111AA0.0. 001111AA0.0.
00AAAAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA  
0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAAAA000011AAAA0101AAAAAAAABBAARR-- CCOODDE-E- II DD111111111111111111
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0.0. 0A0AAAAA0.0. 0A0AAAAA0.0. 0A0AAAAA0.0. 0A0AAAAA92920101AAAA0101AAAAAAAABBAARR-- CCOODDE-E- II DD111111111111111111<ETX><ETX>
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CommunicatioCommunication example, #ERR TRANS FORM set n example, #ERR TRANS FORM set to “ZERO”to “ZERO”
(Analyzer) (Host)(Analyzer) (Host)
<<STSTX>X>HHLLC-C- 723723GGXXAAAAAA120110260001120110260001AAAAAA0.0. 001111AA0.0. 001111AA0.0. 001111AA0.0. 001111AA0.0. 001111AA0.0.
00AAAAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00   AAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA  
0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAA0.0. 00AAAAAAAA000011AAAA0101AAAAAAAABBAARR-- CCOODDE-E- II DD111111111111111111<ETX><ETX>
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