Iec 62591 2016

410 D.3.7 Commu ication b twe n gateway an network manager... 14 Fig re 3 – Tran ition diagram of the cl ent data tran fer state mac ine.. 14 Fig re 3 – Tran ition diagram of the cl ent

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inside

CONTENTS

FOREWORD 2

INTRODUCTION 2

1 Sco e 2

2 Normative ref eren es 2

3 Terms, def i ition , s mb ls, a breviation an con ention 2

3.1 Ref eren e model terms an defi ition 2

3.1.1 Terms an def i ition f rom ISO/IEC 7 9 -1 terms an ISO/IEC 7 9 -3 terms 2

3.1 2 Terms an def i ition f rom ISO/IEC 9 4 3

3.1.3 Terms an def i ition f rom ISO/IEC 8 2 3

3.1.4 Terms an def i ition f rom ISO/IEC 8 2 -1 31

3.2 Sp cif i terms an def i ition 31

3.3 Ab reviation 4

3.4 Con ention 4

3.4.1 Con ention u ed for DL-services 4

3.4.2 Con ention u ed for DL-protocol (state mac ine) 4

3.4.3 Con ention f or Ap l cation L yer service 4

3.4.4 Con ention f or the AL-protocol 4

4 Ph sical layer sp cif i ation an service def i ition 51

4.1 General 51

4.2 Ph sical layer service def i ition 51

4.2.1 General overview 51 4.2.2 Ph sical layer services 5

4.3 Ph sical layer protocol sp cif i ation 5

5 Data-l n layer service def i ition – Typ 2 elements 5

5.1 General 5

5.2 Data-l n layer services 5

5.2.1 F ci ties of the data-l n layer services 5

5.2.2 QoS f or mes age service 5

5.2.3 Seq en e of primitives 5

5.2.4 DL-TRA SMIT service 6

5.2.5 DL-RECEIVE service 6

5.2.6 DL-DISCON ECT service 6

5.2.7 DL-PATH-FAILURE service 63 5.2.8 DL-ADVERTIS service 6

5.2.9 DL-NEIGHBOR service 6

5.2.10 DLM-SE 6

5.2.1 DLM-GE 6

5.2.12 DLM-ACTION 6

5.2.13 DLM-EVENT 6

5.3 Network layer services 6

5.3.1 F ci ties of the network layer services 6

5.3.2 QoS f or mes age service 6

5.3.3 Seq en e of primitives 6

5.3.4 NL-TRA SMIT Service 6

5.3.6 NLM-GE 71

5.3.7 NLM-ACTION 71

5.4 Tran p rt layer services 7

5.4.1 F ci ties of the tran p rt layer services 7

5.4.2 QoS f or mes age service 7

5.4.3 Seq en e of primitives 7

5.4.4 TL-DATA-TR NS ER Service 7

5.4.5 TL-DATA-E X H NGE Service 7

5.4.6 TLM-SE 7

5.4.7 TLM-GE 7

6 Data-l n layer protocol sp cif i ation – Typ 2 elements 7

6.1 General 7

6.2 Overview 7

6.2.1 Data-l n layer o eration 7

6.2.2 Network layer o eration 8

6.2.3 Device proced res 8

6.3 L gical l n control 84 6.3.1 General DLPDU stru ture 8

6.3.2 DLPDU-sp cifi stru ture, en odin an elements of proced re 8

6.3.3 DLPDU Priority an Flow Control 9

6.3.4 Er or detection an sec rity 9

6.4 Medium Ac es Control 95 6.4.1 Fu ction 9

6.4.2 Slot timin 95 6.4.3 Commu ication ta les an buf f ers 9

6.4.4 Lin s hed l n 10

6.4.5 MAC o eration 10

6.5 DL-management-inf ormation 1 8

6.5.1 General 1 8

6.5.2 DL atributes 1 8

6.5.3 DLM action 1 9

6.6 Network layer 1 9

6.6.1 Two level model of NL 1 9

6.6.2 NPDU stru ture 12

6.6.3 Sec rity f un tion 12

6.6.4 Network layer ta les 13

6.6.5 NLE mac ine 13

6.6.6 NLE elements of proced re 13

6.6.7 NL-management inf ormation 13

6.7 Tran p rt layer 13

6.7.1 General 13

6.7.2 T DU stru ture 13

6.7.3 Tran p rt pip ta le 14

6.7.4 TLE elements of proced re 141

6.7.5 TLE state mac ines 14

6.7.6 TL-management inf ormation 14

7 Ap l cation layer service defi ition – Typ 2 elements 14

7.1 Common con e ts 14

7.3 Data typ ASE 14

7.3.1 Overview 14

7.3.2 F rmal def i ition of data typ o jects 15

7.3.3 FAL def i ed data typ s 15

7.3.4 Data typ ASE service sp cif i ation 15

7.3.5 Summary of data typ s 15

7.4 Commu ication model sp cif i ation 15

7.4.1 Common p rameters 15

7.4.2 ASEs 15

7.4.3 ARs 2 0

7.4.4 Summary of clas es 2 3

7.4.5 Permited services by AREP role 2 3

8 Ap l cation layer protocol sp cif i ation – Typ 2 elements 2 4

8.1 General 2 4

8.2 Abstract s ntax 2 4

8.3 Tran f er s ntax 2 4

8.3.1 Common APDU f ield 2 4

8.3.2 Common APDU stru ture 2 5

8.3.3 Device a pl cation service-sp cif i APDU stru tures 2 8

8.3.4 L yer management service sp cif i APDU stru tures 2 3

8.3.5 Gateway an network manager sp cif i APDU stru tures 3 6

8.3.6 Network management con g ration sp cif i APDU stru tures 3 8

8.3.7 Data codin rules 3 6

8.4 Common proced res 3 0

8.4.1 Delayed resp n e 3 0

8.5.4 Parameters of FSPM/ARPM primitives 3 8

8.6 Ap l cation relation hip protocol mac ines (ARPMs) 3 9

8.6.1 AREP ma pin to tran p rt layer 3 9

8.6.2 Ap l cation relation hip protocol mac ines (ARPMs) 3 0

8.6.3 AREP state mac ine primitive def i ition 3 2

8.6.4 AREP state mac ine fun tion 3 3

9 Commu ication Profile F mi y 9 (HART™) 3 5

9.1 General Overview 3 5

9.3.5 Data-l n layer 3 3

9.3.6 Ap l cation layer 3 4

An ex A (normative) Sec rity 3 5

A.1 General 3 5

A.2 Joinin 3 6

A.2.1 The join seq en e 3 6

A.2.2 The network layer join proces 3 2

A.2.3 The data-l n layer join proces 3 3

A.3 Network key c an e o eration 3 6

A.4 Sec rity management 3 7

A.5 Maintenan e Port 3 7

An ex B (normative) Wireles proced res 3 9

B.1 Initial zin a wireles network 3 9

B.2 Neig b r Dis overy 3 9

B.3 Path f ai ure 4 0

B.4 Device le vin the network 4 1

An ex C (normative) Network management 4 3

C.1 Overview 4 3

C.2 Network manager fun tion 4 4

An ex D (normative) Gateway 4 6

D.1 Overview 4 6

D.2 Ac es p int 4 6

D.3 Fu ction 4 8

D.3.1 General req irements 4 8

D.3.2 Ad in new network devices 4 9

D.3.3 Device con g ration c an e statu notif i ation 4 9

D.3.4 Gateway c an e notif i ation f un tion 4 9

D.3.5 Cac ed resp n e mes ages 4 9

D.3.6 Service ac es p int 410

D.3.7 Commu ication b twe n gateway an network manager 410

An ex E (normative) Comman resp n e codes 41

E.1 Overview 41

E.1.1 General 41

E.1.2 Resp n e code clas ifi ation 41

E.1.3 Reserved values 41

E.1.4 Unimplemented comman 412

E.1.5 Bu y 412

E.2 Resp n e code def i ition 412

E.2.1 General 412

E.2.2 Value ‘0’ 412

E.2.3 Value ‘1’ – sin le-def i ition er or 412

E.2.4 Value ‘2’ – sin le-def i ition er or 412

E.2.5 Value ‘3’ – sin le-def i ition er or 412

E.2.6 Value ‘4’ – sin le-def i ition er or 412

E.2.7 Value ‘5’ – sin le-def i ition er or 412

E.2.8 Value ‘6’ – sin le-def i ition er or 413

E.2.9 Value ‘7’ – sin le-def i ition er or 413

E.2.10 Value ‘8’ – multi-def i ition warnin 413

E.2.4 Values ‘9 ’ to ‘1 1’ – sin le-def i ition warnin 419

E.2.4 Values ‘1 2’ to ‘12 ’ – multi-defi ition warnin 419

An ex F (normative) Common ta les 4 0

F.2.2 Write device varia le codes 4 1

F.2.3 Device varia le f ami y codes 4 2

F.2.5 Analog c an el saturated codes 4 3

F.2.6 Analog c an el f i ed codes 4 4

F.2.7 Stan ardized statu 0 codes 4 4

F.2.8 Stan ardized statu 1 codes 4 4

F.2.9 Stan ardized statu 2 codes 4 5

F.2.10 Stan ardized statu 3 codes 4 5

F.2.1 Publ s trig er mode codes 4 6

F.2.12 Event notifi ation control codes 4 6

F.2.13 Event statu codes 4 6

F.2.14 Timeta le req est codes 4 6

F.2.15 Timeta le a plcation domain codes 4 7

F.2.16 Sy c ronou action control codes 4 7

F.2.17 Re l-time cloc f lag codes 4 7

F.2.18 Wireles timer codes 4 7

F.2.19 Device p wer source codes 4 8

F.2.2 Lin _typ codes 4 8

F.2.21 Lin o tion flag codes 4 8

F.2.2 Sup rframe mode f lag codes 4 9

F.2.2 Ses ion_typ codes 4 9

F.2.2 Timeta le deletion re son codes 4 9

F.2.2 Dis on ect cau e codes 4 9

F.2.2 Wireles o eration codes 4 0

F.2.2 Join proces statu codes 4 0

F.2.2 Sec rity typ codes 4 0

F.2.2 Device l st codes 4 1

F.2.3 Network ac es mode codes 4 1

F.2.31 Device prof ile codes 4 2

F.2.3 Device p wer statu codes 4 2

F.2.4 Wireles device con ection statu 4 4

F.2.41 Wireles device he lth statu 4 4

F.2.4 Chan e key f lag codes 4 5

F.2.4 Join key mode code 4 5

An ex G (informative) Ap l cation of publ s data mode an event comman s 4 6

G.1 Publ s data mode o eration 4 6

G.1.1 Overview 4 6

G.1.2 Con g rin a device for publ s data mode o eration 4 6

G.1.3 Resp n e f or publ s data mode o eration 4 7

G.1.4 Publ s data mode update p riod 4 7

G.2 Event notifi ation o eration 4 8

G.2.1 Overview 4 8

G.2.2 Con g rin a device event notifi ation o eration 4 8

An ex H (informative) Network red n an y 4 0

An ex I (informative) Network manager implementation 4 1

J.2.4 Ph sical network device 4 6

J.2.5 Commu ication interface 4 6

J.2.6 Cac ed resp n e mes ages 4 7

J.3 Gateway management 4 8

J.3.6 Re-buid publ s data p riodic data 4 9

J.3.7 Gateway self test 4 0

J.3.8 Ad in new network device 4 0

J.3.9 Device con g ration c an e statu notif i ation 4 0

J.4 Gateway s p rframe 4 0

J.5 Gateway c an e notifi ation services 4 0

J.6 HART™ comman s interf ace 4 2

J.6.2 Host to gateway comman req est an resp n e 4 2

J.6.3 Pas -throu h of HART™ comman req est an resp n e 4 3

J.6.4 Cac in publ s data comman resp n e mes ages 4 3

J.6.5 Gateway statu er or f lag bits 4 3

K.2 Maintenan e p rt con ection 4 5

K.3 Network device con ection 4 5

K.3.1 General 4 5

K.3.2 In tal ses ion key 4 6

K.3.3 View network diag ostic an he lth re orts 4 6

K.4 Network con ection as a maintenan e device 4 6

An ex L (informative) Ap l cation of Wireles HART Comman s 4 7

L.5.2 TDMA Data-Lin Key Management 4 1

L.5.3 Ses ion Key Management 4 1

M.3.1 General 4 1

M.3.2 Ada tive 4 2

M.3.3 Non-Ada tive 4 2

Bibl ogra h 4 6

Fig re 1 – Sup rf rame clas example 4

Fig re 2 – In eritan e example 5

Fig re 3 – Basic ag regation example 5

Fig re 4 – Comp sition ag regation example 51

Fig re 5 – Ph sical layer service seq en es 5

Fig re 6 – Mes age service er or fre seq en es 5

Fig re 7 – Mes age service seq en es with er ors 6

Fig re 8 – Receive only mes age service 6

Fig re 9 – NL Data tran f er service seq en es 6

Fig re 10 – Data tran f er service er or fre seq en es 7

Fig re 1 – Data tran f er service seq en es with er ors 7

Fig re 12 – A TDMA slot an s p rf rame 8

Fig re 13 – Chan el ho pin 81 Fig re 14 – Wireles network 8

Fig re 15 – DLPDU Stru ture 8

Fig re 16 – Ad res sp cifier 8

Fig re 17 – Con tru tion of 8-octet EUI-6 Ad res 8

Fig re 18 – DLPDU sp cif ier 8

Fig re 19 – Slot timin detai s 9

Fig re 2 – DLE ta les an relation hip 9

Fig re 21 – Relation hips u ed for l n s hed l n 10

Fig re 2 – MAC comp nents 10

Fig re 2 – TDMA state mac ine 10

Fig re 2 – XMIT state mac ine 1 3

Fig re 2 – RECV state mac ine 1 5

Fig re 2 – ACK tran mis ion state mac ine 1 7

Fig re 2 – Gra h routin 121

Fig re 2 – Source routin 12

Fig re 2 – NPDU Stru ture 12

Fig re 3 – NPDU control octet 12

Fig re 31 – Sec rity control octet 12

Fig re 3 – NLE ta les an relation hip 13

Fig re 3 – NLE state mac ine 13

Fig re 3 – Routin decision of the NPDU 13

Fig re 3 – TPDU Stru ture 13

Fig re 3 – TPDU control octet 14

Fig re 3 – Tran ition diagram of the cl ent data tran fer state mac ine 14

Fig re 3 – Tran ition diagram of the cl ent data ex han e state mac ine 14

Fig re 3 – Tran ition diagram of the server state mac ine 14

Fig re 4 – Data typ clas hierarc y 14

Fig re 41 – Req est APDU format from master to slave 2 5

Fig re 4 – Normal resp n e APDU f ormat from slave to master 2 6

Fig re 4 – Comman er or resp n e APDU format f rom slave to master 2 6

Fig re 4 – Ag regated comman APDU 2 7

Fig re 4 – Win owed trig er mode 2 0

Fig re 4 – Win owed trig er mode with maximum update time expired 2 0

Fig re 4 – L vel trig er mode 2 1

Fig re 4 – Codin without identif i ation 3 6

Fig re 4 – Codin of Integer typ data 3 6

Fig re 5 – Codin of Un ig ed typ data 3 7

Fig re 51 – Codin of sin le precision f lo tin p int typ data 3 7

Fig re 5 – Codin of double precision flo tin p int typ data 3 8

Fig re 5 – Codin of Date typ data 3 8

Fig re 5 – Normal DR o eration 3 2

Fig re 5 – Comman resp n es d rin DR proces in 3 3

Fig re 5 – Slaves with multiple DR buf fers 3 4

Fig re 5 – State tran ition diagram of FSPM 3 5

Fig re 5 – State tran ition diagram of the cl ent ARPM 3 1

Fig re 5 – State tran ition diagram of the server ARPM 3 2

Fig re 6 – State tran ition diagram of TMPM 3 3

Fig re 61 – Wireles network comp nents 3 7

Fig re A.1 – Join seq en e 3 8

Fig re A.2 – Network layer join proced re 3 2

Fig re A.3 – Data-l n layer join proced re 3 4

Fig re A.4 – Network Key c an e o eration 3 7

Fig re I 1 – General model f or network manager 4 2

Fig re I 2 – Device typ data model 4 3

Fig re I 8 – Detai ed model of the network manager 4 0

Fig re I 9 – Four network device wireles network 4 5

Fig re I 10 – APDU seq en es 4 9

Fig re I 1 – Initial zin a wireles network 4 1

Fig re I 12 – Al ocatin an u in network resources 4 2

Fig re I 13 – Adju tin network s hed le 4 3

Fig re I 14 – He lth re orts 4 3

Fig re J.1 – General model f or gateway 4 5

Fig re J.2 – L gical network device 4 6

Fig re J.3 – Ph sical network device 4 6

Fig re J.4 – Managin notif i ation services 4 1

Fig re M.1 – Con ec tive Tran mit Seq en e 4 4

Fig re M.2 – ACK-Tran mit Seq en e 4 5

Ta le 1 – Con ention u ed for state mac ines 4

Ta le 2 – Clas relation hip notation 4

Ta le 3 – Multiplcity notation 51

Ta le 4 – PH-EN BLE primitives an p rameters 5

Ta le 5 – PH-CCA primitives an p rameters 5

Ta le 6 – PH-DATA primitives an p rameters 5

Ta le 7 – PHM-SE primitive an p rameters 5

Ta le 8 – PHM-GE primitive an p rameters 5

Ta le 9 – DL-Tran mit primitives an p rameters 61

Ta le 10 – DL-RE CEIVE primitive an p rameters 62 Ta le 1 – DL-DISCON ECT primitive an p rameters 6

Ta le 12 – DL-PATH-FAILU E primitive an p rameters 6

Ta le 13 – DL-AD ERTIS primitive an p rameters 6

Ta le 14 – DL-NE IGHB OR primitive and p rameters 6

Ta le 15 – DLM-SE primitive an p rameters 6

Ta le 16 – DLM-GE primitive an p rameters 6

Ta le 17 – DLM-ACTION primitive an p rameters 6

Ta le 18 – NL-TR NSMI T primitives an p rameters 6

Ta le 19 – NLM-SE primitive an p rameters 7

Ta le 2 – NLM-GE primitive an p rameters 71

Ta le 21 – NLM-ACTION primitive an p rameters 71

Ta le 2 – TL-DATA-TR A S E R primitives an p rameters 7

Ta le 2 – TL-DATA-EX H NGE primitives an p rameters 7

Ta le 2 – TLM-Set primitive an p rameters 7

Ta le 2 – TLM-Get primitive an p rameters 7

Ta le 2 – Network_ID Alocation 8

Ta le 2 – Contents of the ACK DLPDU p ylo d 8

Ta le 2 – ACK resp n e-code 8

Ta le 2 – Contents of the Ad ertise DLPDU p ylo d 9

Ta le 3 – Begin in of the s p rframe 9

Ta le 31 – The next f ield af ter the last s p rframe size 9

Ta le 3 – Re e ted for e c l n 91

Ta le 3 – Chan el an f req en y as ig ments 91

Ta le 3 – Slot timin def i ition an values 9

Ta le 3 – Minimum DLE Ta le an buf fer sp ce req irement 9

Ta le 3 – Sup rframe atributes 9

Ta le 3 – Lin atributes 10

Ta le 3 – Neig b r at ributes an varia les 101

Ta le 3 – Gra h at ributes 10

Ta le 4 – Pac et record 10

Ta le 41 – Example Bac of f _c tr selection sets 10

Ta le 4 – TDMA state mac ine 1 0

Ta le 4 – XMIT state tran ition 1 3

Ta le 4 – RECV state mac ine 1 6

Ta le 4 – ACK tran mis ion state mac ine 1 8

Ta le 4 – DL at ributes 1 9

Ta le 4 – DL action 1 9

Ta le 4 – Cou ter value 12

Ta le 4 – Ses ion at ributes 12

Ta le 5 – NPDU non e 12

Ta le 51 – Minimum NLE Ta le sp ce req irement 131

Ta le 5 – Route atributes 131

Ta le 5 – Source route atributes 13

Ta le 5 – TimeTa le atributes 13

Ta le 5 – NLE states 13

Ta le 5 – NPDU con tru tion 13

Ta le 5 – Routin action 13

Ta le 5 – NL at ributes 13

Ta le 5 – NL action 13

Ta le 6 – Tran p rt pip atributes 141

Ta le 61 – Tran p rt control en odin f or TL-DATA-TR

NS E

R req est 141

Ta le 6 – Tran p rt control en odin f or TL-DATA-EX H NGE req est 14

Ta le 6 – Tran p rt control en odin f or TL-DATA-EX H NGE resp n e 14

Ta le 6 – Cl ent data tran fer state ta le 14

Ta le 6 – Cl ent data ex han e state ta le 14

Ta le 6 – Server state ta le 14

Ta le 6 – Data typ s mmary 15

Ta le 6 – Resp n e code values 15

Ta le 6 – Re d service p rameters 16

Ta le 7 – Write service p rameters 16

Ta le 71 – Inf ormation re ort service p rameters 16

Ta le 7 – Action service p rameters 16

Ta le 7 – AR get at ributes service p rameters 2 2

Ta le 7 – AR set at ributes service p rameters 2 2

Ta le 7 – Clas s mmary 2 3

Ta le 7 – Con rmed services by AREP clas 2 3

Ta le 7 – Un on rmed services by AREP clas 2 3

Ta le 7 – Resp n e code values 2 4

Ta le 7 – Exten ed statu values 2 5

Ta le 8 – Reset con g ration c an ed f lag value f ield 2 9

Ta le 81 – Reset con g ration c an ed f lag comman sp cif i Resp n e codes 2 9

Ta le 8 – Perf orm self test comman sp cif i Resp n e codes 2 0

Ta le 8 – Perf orm device reset comman sp cif i Resp n e codes 2 0

Ta le 8 – Re d ad itional device statu value f ield 2 1

Ta le 8 – Re d ad itional device statu comman sp cif i Resp n e codes 2 1

Ta le 8 – Re d ad itional device statu value f ield 2 2

Ta le 8 – Re d ad itional device statu comman sp cif i Resp n e codes 2 2

Ta le 8 – Re d device varia le information value field 2 3

Ta le 8 – Re d device varia le information resp n e value f ield 2 3

Ta le 9 – Re d device varia le information comman sp cif i Resp n e codes 2 4

Ta le 91 – Write device varia le value f ield 2 4

Ta le 9 – Write device varia le comman sp cif i resp n e codes 2 4

Ta le 9 – Re d Sub-Device Identity Summary value field 2 5

Ta le 9 – Re d Sub-Device Identity Summary comman sp cif i resp n e codes 2 6

Ta le 9 – Re d re l-time cloc value field 2 6

Ta le 9 – Re d re l-time cloc comman sp cif i resp n e codes 2 7

Ta le 9 – Write publs data p riod value f ield 2 7

Ta le 9 – Write publs data p riod comman sp cif i resp n e codes 2 7

Ta le 9 – Write publs data trig er f ield 2 8

Ta le 10 – Write publs data trig er comman sp cif i resp n e codes 2 9

Ta le 101 – Publ s data mes age trig er source 2 9

Ta le 10 – Re d publ s data mode con g ration req est value f ield 2 1

Ta le 10 – Re d publ s data mode con g ration resp n e value field 2 2

Ta le 10 – Re d publ s data mode con g ration comman sp cif i resp n e codes 2 2

Ta le 10 – Flu h delayed resp n es comman sp cif i Resp n e codes 2 3

Ta le 10 – Write publs data mode con g ration value f ield 2 3

Ta le 10 – Write publs data device varia les comman sp cif i resp n e codes 2 4

Ta le 10 – Write publs data mode comman n mb r value f ield 2 4

Ta le 10 – Write publs data mode comman n mb r value f ield 2 5

Ta le 1 0 – Write publs data mode comman n mb r comman sp cif i resp n e

codes 2 5

Ta le 1 1 – Write publs data mode control value f ield 2 6

Ta le 1 2 – Write publs data mode control comman sp cif i resp n e codes 2 6

Ta le 1 3 – Re d event notif i ation s mmary req est value f ield 2 7

Ta le 1 4 – Re d event notif i ation s mmary resp n e value f ield 2 8

Ta le 1 5 – Re d event notif i ation s mmary comman sp cif i resp n e codes 2 8

Ta le 1 6 – Write event notif i ation bit mas value field 2 9

Ta le 1 7 – Write event notif i ation bit mas comman sp cif i resp n e codes 2 9

Ta le 1 8 – Write event notif i ation timin value field 2 0

Ta le 1 9 – Write event notif i ation timin comman sp cif i resp n e codes 2 0

Ta le 12 – Write event notif i ation control value f ield 2 1

Ta le 121 – Write event notif i ation control comman sp cif i resp n e codes 2 1

Ta le 12 – Write event notif i ation ac nowled ement value f ield 2 2

Ta le 12 – Write event notif i ation ac nowled ement comman sp cif i resp n e

Ta le 12 – Re d join statu comman sp cif i resp n e codes 2 4

Ta le 12 – Write Active_se rc _s ed_time req est value f ield 2 4

Ta le 12 – Write Active_se rc _s ed_time resp n e value f ield 2 5

Ta le 13 – Write Active_se rc _s ed_time comman sp cif i resp n e codes 2 5

Ta le 131 – Write Join mode con g ration value f ield 2 5

Ta le 13 – Write Join mode con g ration comman sp cif i resp n e codes 2 6

Ta le 13 – Re d Join mode con g ration resp n e value f ield 2 6

Ta le 13 – Re d Join mode con g ration comman sp cif i resp n e codes 2 7

Ta le 13 – Write network_ID value f ield req est value field 2 7

Ta le 13 – Write network_ID value f ield resp n e value f ield 2 7

Ta le 13 – Write network_ID comman sp cif i resp n e codes 2 7

Ta le 13 – Re d network_ID value f ield 2 8

Ta le 13 – Re d network_ID comman sp cif i resp n e codes 2 8

Ta le 14 – Write Network_tag value f ield 2 9

Ta le 141 – Write Network_tag comman sp cif i Resp n e codes 2 9

Ta le 14 – Re d Network_tag resp n e value f ield 2 9

Ta le 14 – Re d Network_tag comman -sp cifi resp n e codes 2 0

Ta le 14 – Re d wireles device ca a i ties value field 2 0

Ta le 14 – Re d wireles device ca a i ties comman sp cif i respon e codes 2 0

Ta le 14 – Re d b tery l f e resp n e value f ield 2 1

Ta le 14 – Re d b tery l f e comman -sp cif i resp n e codes 2 1

Ta le 14 – Re ort device he lth resp n e value f ield 2 2

Ta le 14 – Re ort device he lth comman sp cif i resp n e codes 2 2

Ta le 15 – Re d neig b r he lth l st req est value field 2 2

Ta le 151 – Re d neig b r he lth l st resp n e value field 2 3

Ta le 15 – Re d neig b r he lth l st comman specif i resp n e codes 2 3

Ta le 15 – Re d device nic name resp n e value f ield 2 4

Ta le 15 – Re d device nic name comman -sp cif i resp n e codes 2 4

Ta le 15 – Re d ses ion l st req est value field 2 4

Ta le 15 – Re d ses ion l st resp n e value f ield 2 5

Ta le 15 – Re d ses ion l st comman sp cif i resp n e codes 2 5

Ta le 15 – Re d s p rf rame lst req est value f ield 2 5

Ta le 15 – Re d s p rf rame lst resp n e value f ield 2 6

Ta le 16 – Re d s p rf rame lst comman sp cif i resp n e codes 2 6

Ta le 161 – Re d l n lst req est value field 2 6

Ta le 16 – Re d l n lst resp n e value f ield 2 7

Ta le 16 – Re d l n lst comman sp cif i resp n e codes 2 7

Ta le 16 – Re d gra h l st req est value field 2 7

Ta le 16 – Re d gra h l st resp n e value field 2 8

Ta le 16 – Re d gra h l st comman sp cifi resp n e codes 2 8

Ta le 16 – Re d neig b r atribute flag req est value field 2 8

Ta le 16 – Re d neig b r atribute flag resp n e value f ield 2 8

Ta le 16 – Re d neig b r atribute flag comman sp cifi resp n e codes 2 9

Ta le 17 – Re d neig b r sig al level req est value field 2 9

Ta le 171 – Re d neig b r sig al level resp n e value field 2 9

Ta le 17 – Re d neig b r sig al level comman sp cif i resp n e codes 2 9

Ta le 17 – Re ort p th down alarm resp n e value f ield 2 0

Ta le 17 – Re ort p th down alarm comman sp cif i resp n e codes 2 0

Ta le 17 – Re ort source route f ai ed alarm resp n e value f ield 2 1

Ta le 17 – Re ort source route f ai ed alarm comman sp cif i resp n e codes 2 1

Ta le 17 – Re ort gra h route f ai ed alarm resp n e value field 2 1

Ta le 17 – Re ort gra h route f ai ed alarm comman sp cif i resp n e codes 2 1

Ta le 17 – Re ort tran p rt layer f aied alarm resp n e value f ield 2 2

Ta le 18 – Re ort tran p rt layer f aied alarm comman sp cif i resp n e codes 2 2

Ta le 181 – Write UTC time ma pin value field 2 2

Ta le 18 – Write UTC time ma pin comman sp cif i resp n e codes 2 2

Ta le 18 – Re d UTC time ma pin resp n e value f ield 2 3

Ta le 18 – Re d UTC time ma pin comman sp cif i resp n e codes 2 3

Ta le 18 – Write timer interval value f ield 2 3

Ta le 18 – Write timer interval comman sp cif i resp n e codes 2 3

Ta le 18 – Re d timer interval req est value f ield 2 4

Ta le 18 – Re d timer interval resp n e value field 2 4

Ta le 18 – Re d timer interval comman sp cif i resp n e codes 2 5

Ta le 19 – Write radio p wer output value field 2 5

Ta le 191 – Write radio p wer output comman sp cif i resp n e codes 2 5

Ta le 19 – Re d radio p wer output resp n e value field 2 6

Ta le 19 – Re d radio p wer output comman sp cif i resp n e codes 2 6

Ta le 19 – Req est TimeTa le value f ield 2 6

Ta le 19 – Resp n e TimeTa le value field 2 7

Ta le 19 – Req est TimeTa le comman sp cif i resp n e codes 2 7

Ta le 19 – Re d TimeTa le l st req est value f ield 2 8

Ta le 19 – Re d TimeTa le l st resp n e value f ield 2 8

Ta le 19 – Re d TimeTa le l st comman sp cif i resp n e codes 2 9

Ta le 2 0 – Delete TimeTa le req est value field 2 9

Ta le 2 1 – Delete TimeTa le resp n e value f ield 2 9

Ta le 2 2 – Delete TimeTa le comman sp cif i resp n e codes 2 0

Ta le 2 3 – Re d route l st req est value f ield 2 0

Ta le 2 4 – Re d route l st resp n e value field 2 0

Ta le 2 5 – Re d route l st comman sp cif i resp n e codes 2 1

Ta le 2 6 – Re d source route req est value field 2 1

Ta le 2 7 – Re d source route resp n e value f ield 2 1

Ta le 2 8 – Re d source route comman sp cif i resp n e codes 2 1

Ta le 2 9 – Re d CCA mode resp n e value f ield 2 2

Ta le 210 – Re d CCA mode comman sp cif i resp n e codes 2 2

Ta le 21 – Write CCA mode value f ield 2 2

Ta le 212 – Write CCA mode comman sp cif i resp n e codes 2 3

Ta le 213 – Re d han held s p rframe resp n e value f ield 2 3

Ta le 214 – Re d han held s p rframe comman sp cifi resp n e codes 2 3

Ta le 215 – Write han held s p rf rame value f ield 2 4

Ta le 216 – Write han held s p rf rame comman sp cifi resp n e codes 2 4

Ta le 217 – Re d p c et ho -to-l ve resp n e value field 2 4

Ta le 218 – Re d p c et ho -to-l ve comman sp cif i resp n e codes 2 5

Ta le 219 – Write p c et ho -to-l ve value f ield 2 5

Ta le 2 0 – Write p c et ho -to-l ve comman sp cif i resp n e codes 2 5

Ta le 2 1 – Re d Join_priority resp n e value f ield 2 6

Ta le 2 2 – Re d Join_priority comman sp cif i resp n e codes 2 6

Ta le 2 3 – Write Join_priority value f ield 2 6

Ta le 2 4 – Write Join_priority comman sp cif i resp n e codes 2 6

Ta le 2 5 – Re d receive Priority_thres old resp n e value field 2 7

Ta le 2 6 – Re d receive Priority_thres old comman sp cif i resp n e codes 2 7

Ta le 2 7 – Write receive Priority_thres old value f ield 2 7

Ta le 2 8 – Write receive Priority_thres old comman sp cif i resp n e codes 2 8

Ta le 2 9 – Re d device lst req est value field 2 8

Ta le 2 0 – Re d device lst resp n e value f ield 2 8

Ta le 2 1 – Re d device lst comman sp cif i resp n e codes 2 8

Ta le 2 2 – Add device l st entry req est value f ield 2 9

Ta le 2 3 – Add device l st entry resp n e value f ield 2 9

Ta le 2 4 – Add device l st entry comman sp cif i resp n e codes 3 0

Ta le 2 5 – Delete device l st entry req est value f ield 3 0

Ta le 2 6 – Delete device l st entry resp n e value field 3 0

Ta le 2 7 – Delete device l st entry comman sp cif i resp n e codes 3 1

Ta le 2 8 – Re d c an el blac l st resp n e value field 3 1

Ta le 2 9 – Re d c an el blac l st comman sp cif i resp n e codes 3 1

Ta le 2 0 – Write c an el blac l st value field 3 2

Ta le 2 1 – Write c an el blac l st comman sp cif i resp n e codes 3 2

Ta le 2 2 – Re d b c -of f exp nent resp n e value f ield 3 3

Ta le 2 3 – Re d b c -of f exp nent comman sp cif i resp n e codes 3 3

Ta le 2 4 – Write b c -of f exp nent value field 3 3

Ta le 2 5 – Write b c -of f exp nent comman sp cif i resp n e codes 3 3

Ta le 2 6 – Write network ac es mode value f ield 3 4

Ta le 2 7 – Write network ac es mode comman sp cifi resp n e codes 3 4

Ta le 2 8 – Re d network ac es mode resp n e value field 3 5

Ta le 2 9 – Re d network ac es mode comman sp cifi resp n e codes 3 5

Ta le 2 0 – Req est Ses ion req est value field 3 5

Ta le 2 1 – Req est Ses ion resp n e value f ield 3 6

Ta le 2 2 – Req est Ses ion comman sp cif i resp n e codes 3 6

Ta le 2 3 – Re d network device identity req est value field 3 6

Ta le 2 4 – Re d network device identity resp n e value f ield 3 6

Ta le 2 5 – Re d network device identity comman sp cif i resp n e codes 3 7

Ta le 2 6 – Re d device’s neig b r he lth req est value field 3 7

Ta le 2 7 – Re d device’s neig b r he lth resp n e value f ield 3 7

Ta le 2 8 – Re d device’s neig b r he lth comman sp cif i resp n e codes 3 8

Ta le 2 9 – Re d network to olog inf ormation req est value f ield 3 8

Ta le 2 0 – Re d network to olog inf ormation resp n e value f ield 3 8

Ta le 2 1 – Re d network to olog inf ormation comman sp cif i resp n e codes 3 9

Ta le 2 2 – Re d publ s data mes age lst req est value f ield 3 9

Ta le 2 3 – Re d publ s data mes age lst resp n e value f ield 3 9

Ta le 2 4 – Re d publ s data mes age lst comman sp cif i resp n e codes 3 9

Ta le 2 5 – Flu h cac ed value f ield 310

Ta le 2 6 – Flu h cac ed resp n es comman sp cif i resp n e codes 310

Ta le 2 7 – Re d network device statistic req est value field 310

Ta le 2 8 – Re d network device statistic resp n e value f ield 31

Ta le 2 9 – Re d network device statistic comman sp cif i resp n e codes 31

Ta le 2 0 – Re d network device identity req est value field 312

Ta le 2 1 – Re d network device identity resp n e value f ield 312

Ta le 2 2 – Re d network device identity comman sp cif i resp n e codes 312

Ta le 2 3 – Write network device's s hed l n f lag value f ield 313

Ta le 2 4 – Write network device's s hed l n f lag comman sp cif i resp n e codes 313

Ta le 2 5 – Re d network device's s hed ln f lag req est value field 313

Ta le 2 6 – Re d network device's s hed ln f lag resp n e value field 314

Ta le 2 7 – Re d network device's s hed ln f lag comman sp cif i resp n e codes 314

Ta le 2 8 – Re d network con traints value field 314

Ta le 2 9 – Re d network con traints comman sp cif i resp n e codes 314

Ta le 2 0 – Write network con traints value field 315

Ta le 2 1 – Write network con traints comman sp cif i resp n e codes 315

Ta le 2 2 – Re d network statistic resp n e value f ield 316

Ta le 2 3 – Re d network comman sp cif i resp n e codes 316

Ta le 2 4 – Tran f er network l st to white l st resp n e value f ield 316

Ta le 2 5 – Tran f er network l st to white l st comman sp cif i resp n e codes 316

Ta le 2 6 – Generate key req est value f ield 317

Ta le 2 7 – Generate key resp n e value f ield 317

Ta le 2 8 – Generate key comman sp cif i resp n e codes 317

Ta le 2 9 – Re d device join key req est value f ield 318

Ta le 2 0 – Re d device join key resp n e value f ield 318

Ta le 2 1 – Re d device join key comman sp cif i resp n e codes 318

Ta le 2 2 – Write device join key 319

Ta le 2 3 – Write device join key comman sp cif i resp n e codes 319

Ta le 2 4 – Chan e key now req est value f ield 319

Ta le 2 5 – Chan e key now resp n e value f ield 3 0

Ta le 2 6 – Chan e key now comman sp cif i resp n e codes 3 0

Ta le 2 7 – Chan e key now resp n e value f ield 3 0

Ta le 2 8 – Chan e key now comman sp cif i resp n e codes 3 1

Ta le 2 9 – Write stale data timer resp n e value f ield 3 1

Ta le 3 0 – Write stale data timer comman sp cif i resp n e codes 3 1

Ta le 3 1 – Write stale data cou t req est value f ield 3 2

Ta le 3 2 – Write stale data cou t comman sp cif i resp n e codes 3 2

Ta le 3 3 – Re d ses ion exten ed req est value f ield 3 3

Ta le 3 4 – Re d ses ion exten ed resp n e value field 3 3

Ta le 3 5 – Re d ses ion exten ed comman sp cif i resp n e codes 3 3

Ta le 3 6 – Re d device s sp n set in s resp n e value f ield 3 4

Ta le 3 7 – Re d device s sp n set in s comman sp cif i resp n e codes 3 4

Ta le 3 8 – Re d sec rity level ad ertised resp n e value f ield 3 4

Ta le 3 9 – Re d sec rity level ad ertised comman sp cif i resp n e codes 3 4

Ta le 310 – Reset avai a i ty statistic req est value f ield 3 5

Ta le 31 – Reset avai a i ty statistic comman sp cif i resp n e codes 3 5

Ta le 312 – Re d active ad ertisin statu resp n e value f ield 3 5

Ta le 313 – Re d active ad ertisin statu comman sp cif i resp n e codes 3 5

Ta le 314 – Re d join key mode resp n e value field 3 6

Ta le 315 – Re d join key mode comman sp cif i resp n e codes 3 6

Ta le 316 – Write join key mode req est value f ield 3 6

Ta le 317 – Write join key mode comman sp cif i resp n e codes 3 7

Ta le 318 – Re d Timeta le by ID req est value f ield 3 7

Ta le 319 – Re d Timeta le by ID resp n e value field 3 7

Ta le 3 0 – Re d Timeta le by ID comman sp cif i resp n e codes 3 8

Ta le 3 1 – Dis on ect device value f ield 3 8

Ta le 3 2 – Dis on ect device comman sp cif i resp n e codes 3 8

Ta le 3 3 – Write network key value field 3 9

Ta le 3 4 – Write network key comman sp cif i resp n e codes 3 9

Ta le 3 5 – Write device nic name value field 3 9

Ta le 3 6 – Write device nic name comman sp cif i resp n e codes 3 0

Ta le 3 7 – Write ses ion req est value f ield 3 0

Ta le 3 8 – Write ses ion resp n e value f ield 3 0

Ta le 3 9 – Write ses ion comman sp cif i resp n e codes 3 1

Ta le 3 0 – Delete ses ion req est value field 3 1

Ta le 3 1 – Delete ses ion resp n e value field 3 1

Ta le 3 2 – Delete ses ion comman sp cifi resp n e codes 3 2

Ta le 3 3 – Write s p rframe req est value field 3 2

Ta le 3 4 – Write s p rframe resp n e value f ield 3 2

Ta le 3 5 – Write s p rframe comman sp cif i resp n e codes 3 3

Ta le 3 6 – Delete s p rf rame req est value f ield 3 3

Ta le 3 7 – Delete s p rf rame resp n e value field 3 3

Ta le 3 8 – Delete s p rf rame comman sp cif i resp n e codes 3 4

Ta le 3 9 – Write l n req est value f ield 3 4

Ta le 3 0 – Write l n resp n e value f ield 3 4

Ta le 3 1 – Write l n comman sp cif i resp n e codes 3 5

Ta le 3 2 – Delete ln req est value f ield 3 5

Ta le 3 3 – Delete ln resp n e value field 3 6

Ta le 3 4 – Delete ln comman sp cif i resp n e codes 3 6

Ta le 3 5 – Write gra h con ection req est value f ield 3 6

Ta le 3 6 – Write gra h con ection resp n e value f ield 3 7

Ta le 3 7 – Write gra h con ection comman sp cif i resp n e codes 3 7

Ta le 3 8 – Delete gra h con ection req est value f ield 3 7

Ta le 3 9 – Delete gra h con ection resp n e value field 3 8

Ta le 3 0 – Delete gra h con ection comman sp cif i resp n e codes 3 8

Ta le 3 1 – Write neig b r atribute flag value f ield 3 8

Ta le 3 2 – Write neig b r atribute comman sp cif i resp n e codes 3 8

Ta le 3 3 – Write network s sp n value field 3 9

Ta le 3 4 – Write network s sp n comman sp cif i resp n e codes 3 9

Ta le 3 5 – Write TimeTa le req est value field 3 0

Ta le 3 6 – Write TimeTa le resp n e value f ield 3 0

Ta le 3 7 – Write TimeTa le comman sp cif i resp n e codes 3 0

Ta le 3 8 – Write route req est value f ield 3 1

Ta le 3 9 – Write route resp n e value field 3 1

Ta le 3 0 – Write route comman sp cif i resp n e codes 3 1

Ta le 3 1 – Delete route req est value field 3 2

Ta le 3 2 – Delete route resp n e value field 3 2

Ta le 3 3 – Delete route comman sp cif i resp n e codes 3 2

Ta le 3 4 – Write source route req est value field 3 3

Ta le 3 5 – Write source route resp n e value f ield 3 3

Ta le 3 6 – Write source route comman sp cif i resp n e codes 3 3

Ta le 3 7 – Delete source route req est value f ield 3 4

Ta le 3 8 – Delete source route resp n e value field 3 4

Ta le 3 9 – Delete source route comman sp cif i resp n e codes 3 4

Ta le 3 0 – Write statu cou ter mode req est value f ield 3 4

Ta le 3 1 – Write statu cou ter mode comman sp cif i resp n e codes 3 5

Ta le 3 2 – Write sec rity level s p orted req est value field 3 5

Ta le 3 3 – Write sec rity level s p orted comman sp cif i resp n e codes 3 5

Ta le 3 4 – Codin of Integer16 typ data 3 6

Ta le 3 5 – Codin of Un ig ed16 typ data 3 7

Ta le 3 6 – Codin for Date typ 3 8

Ta le 3 7 – Codin of 1-octet Bit Field typ data 3 9

Ta le 3 8 – Codin of 2-octet Bit Field typ data 3 9

Ta le 3 9 – Pac ed ASCI c aracter set 3 0

Ta le 3 0 – Subset of ISO L tin-1 c aracters 3 0

Ta le 3 1 – DRM related resp n e codes 3 1

Ta le 3 2 – FSPM state Ta le – cl ent tran action 3 5

Ta le 3 3 – FSPM state Ta le – server tran action 3 7

Ta le 3 4 – Fu ction Tran p rtTyp ( 3 7

Ta le 3 5 – Fu ction PriorityTyp ( 3 7

Ta le 3 6 – Fu ction FormReqApd ( 3 7

Ta le 3 7 – Fu ction FormRspApd ( 3 8

Ta le 3 8 – Fu ction RetrieveComman ( 3 8

Ta le 3 9 – Fu ction Comman Er ( 3 8

Ta le 3 6 – Server ARPM states 3 2

Ta le 3 7 – Server ARPM state ta le 3 2

Ta le 3 8 – Primitives is ued from ARPM to TMPM 3 3

Ta le 3 9 – Primitives is ued by TMPM to ARPM 3 3

Ta le 4 0 – TMPM state des ription 3 3

Ta le 4 1 – TMPM state Ta le – Cl ent tran action 3 4

Ta le 4 2 – TMPM state Ta le – Server tran action 3 4

Ta le 4 3 – Primitives ex han ed b twe n network layer an TMPM 3 5

Ta le 4 4 – CPF 9: overview of prof ile sets 3 5

Ta le 4 5 – CP 9/2: PhL selection 3 1

Ta le 4 6 – CP 9/2: PhL protocol selection 3 1

Ta le 4 7 – Tran ceiver Sp cif i ation 3 2

Ta le 4 8 – Freq en y as ig ments 3 2

Ta le 4 9 – PHY PIB at ributes 3 3

Ta le 410 – CP 9/2: DL service selection 3 4

Ta le 41 – CP 9/2: DL protocol selection 3 4

Ta le 412 – CP 9/2: AL service selection 3 5

Ta le 413 – CP 9/2: Device a pl cation service selection 3 6

Ta le 414 – CP 9/2: L yer management service selection 3 7

Ta le 415 – CP 9/2: Gateway an network manager service selection 3 8

Ta le 416 – CP 9/2: Network management con g ration service selection 3 9

Ta le 417 – CP 9/2: AL protocol selection 3 0

Ta le 418 – Appl cation proces statu values 3 0

Ta le 419 – CP 9/2: Device a pl cation service-sp cif i APDU selection 3 1

Ta le 4 0 – CP 9/2: L yer management service-sp cif i APDU selection 3 2

Ta le 4 1 – CP 9/2: Gateway an network manager service-sp cif i APDU selection 3 3

Ta le 4 2 – CP 9/2: Network management con g ration service-sp cif i APDU

Ta le F.2 – Publ s mode control codes 4 1

Ta le F.3 – Write device varia le codes 4 2

Ta le F.4 – Device varia le f amiy codes 4 2

Ta le F.5 – Device varia le clas if i ation codes 4 2

Ta le F.6 – Analog c an el saturated codes 4 4

Ta le F.7 – Analog c an el f i ed codes 4 4

Ta le F.8 – Stan ardized statu 0 codes 4 4

Ta le F.9 – Stan ardized statu 1 codes 4 5

Ta le F.10 – Stan ardized statu 2 codes 4 5

Ta le F.1 – Stan ardized statu 3 codes 4 5

Ta le F.12 – Publ s trig er mode codes 4 6

Ta le F.13 – Event notifi ation control codes 4 6

Ta le F.14 – Event statu codes 4 6

Ta le F.15 – TimeTa le req est codes 4 7

Ta le F.16 – TimeTa le a pl cation domain codes 4 7

Ta le F.17 – Sy c ronou action control codes 4 7

Ta le F.18 – Re l-time cloc f lag codes 4 7

Ta le F.19 – Wireles timer codes 4 8

Ta le F.2 – Device p wer source codes 4 8

Ta le F.2 – Wireles op ration codes 4 0

Ta le F.2 – Join proces statu codes 4 0

Ta le F.2 – Sec rity typ codes 4 1

Ta le F.3 – Device l st codes 4 1

Ta le F.31 – Network ac es mode codes 4 2

Ta le F.3 – Device prof ile codes 4 2

Ta le F.3 – Device p wer statu codes 4 2

Ta le F.3 – Neig b r flag codes 4 3

Ta le F.3 – Notif i ation mas codes 4 3

Ta le F.3 – Join mode codes 4 3

Ta le F.3 – Device s hed l n f lag codes 4 3

Ta le F.3 – Network o timization flag codes 4 4

Ta le F.3 – Wireles ca a i ties codes 4 4

Ta le F.4 – CCA mode codes 4 4

Ta le F.41 – Wireles device con ection statu 4 4

Ta le F.4 – Wireles device he lth statu 4 5

Ta le F.4 – Chan e key f lag codes 4 5

Ta le F.4 – Join key mode code 4 5

Ta le I 1 – Routin req irements 4 1

Ta le I 2 – Sc ed l n req irements 4 2

Ta le I 3 – Sup rframe ID 1: 1 s update rate, s p rframe len th 10 4 5

Ta le I 4 – Sup rframe ID 4: 4 s update rate, s p rframe len th 4 0 4 6

Ta le I 5 – Sup rframe ID 0: management s p rf rame 4 6

Ta le I 6 – Join req est (s ared with management resp n es) 4 6

Ta le I 7 – Join resp n e (s ared with management req ests) 4 6

Ta le I 14 – Network manager u iversal comman s 4 0

Ta le J.1 – Req ired comman resp n es 4 1

INTERNATIONAL ELECTROTECHNICAL COMMISSION

1 Th Intern tio al Ele trote h ic l Commis io (IEC) is a worldwid org niz tio for sta d rdiz tio c mprisin

al n tio al ele trote h ic l c mmite s (IEC Natio al Commite s) Th o je t of IEC is to promote

intern tio al c -o eratio o al q e tio s c n ernin sta d rdiz tio in th ele tric l a d ele tro ic f i ld To

this e d a d in a ditio to oth r a tivitie , IEC p bls e Intern tio al Sta d rd , Te h ic l Sp cif i atio s,

Te h ic l Re orts, Pu lcly Av ia le Sp cific tio s (PAS) a d Guid s (h re f ter refere to a “IEC

Pu lc tio (s)”) Th ir pre aratio is e tru te to te h ic l c mmite s; a y IEC Natio al Commite intere te

in th s bje t d alt with ma p rticip te in this pre aratory work Intern tio al g v rnme tal a d n

n-g v rnme tal org niz tio s laisin with th IEC als p rticip te in this pre aratio IEC c la orate clo ely

with th Intern tio al Org niz tio for Sta d rdiz tio (ISO) in a c rd n e with c n itio s d termin d b

a re me t b twe n th two org niz tio s

2) Th formal d cisio s or a re me ts of IEC o te h ic l maters e pre s, a n arly a p s ible, a intern tio al

c n e s s of o inio o th rele a t s bje ts sin e e c te h ic l c mmite h s re re e tatio fom al

intere te IEC Natio al Commite s

3) IEC Pu lc tio s h v th form of re omme d tio s for intern tio al u e a d are a c pte b IEC Natio al

Commite s in th t s n e Whie al re s n ble eforts are ma e to e s re th t th te h ic l c nte t of IEC

Pu lc tio s is a c rate, IEC c n ot b h ld re p n ible for th wa in whic th y are u e or f or a y

misinterpretatio b a y e d u er

4) In ord r to promote intern tio al u iformity, IEC Natio al Commite s u d rta e to a ply IEC Pu lc tio s

tra s are tly to th ma imum e te t p s ible in th ir n tio al a d re io al p blc tio s An div rg n e

b twe n a y IEC Pu lc tio a d th c r e p n in n tio al or re io al p blc tio s al b cle rly in ic te in

th later

5) IEC its lf d e n t pro id a y ate tatio of c nformity In e e d nt c rtific tio b die pro id c nformity

a s s me t s rvic s a d, in s me are s, a c s to IEC mark of c nformity IEC is n t re p n ible for a y

s rvic s c rie o t b in e e d nt c rtif i atio b die

6) Al u ers s o ld e s re th t th y h v th late t e itio of this p blc tio

7) No la i ty s al ata h to IEC or its dire tors, emplo e s, s rv nts or a e ts in lu in in ivid al e p rts a d

memb rs of its te h ic l c mmite s a d IEC Natio al Commite s for a y p rs n l injury, pro erty d ma e or

oth r d ma e of a y n ture wh ts e er, wh th r dire t or in ire t, or for c sts (in lu in le al fe s) a d

e p n e arisin o t of th p blc tio , u e of, or rela c u o , this IEC Pu lc tio or a y oth r IEC

Pu lc tio s

8) Ate tio is drawn to th Normativ refere c s cite in this p blc tio Us of th refere c d p blc tio s is

in is e s ble for th c re t a plc tio of this p blc tio

International Stan ard IEC 6 5 1 has b en pre ared by s bcommit e 6 C: In u trial

network , of IEC tec nical commit e 6 : In u trial proces me s rement, control an

automation

This secon edition can els an re laces the first edition publ s ed in 2 10 This edition

con titutes a tec nical revision

This edition in lu es the f ol owin sig if i ant tec nical c an es with resp ct to the previou

edition:

• en an ements to the p rforman e statistic u in key p rf orman e in icators (KPI)

These improvements res lt in exp n ion of statistic provided by Gateway F r example

Re d network device statistic service was exp n ed an Re d network statistic service

was ad ed to provide a s mmary of network p rforman e;

• "Stale Data" detection was ad ed (se services Re d stale data setp ints, Write stale

data timer an Write stale data cou t setp int These stan ardize Gateway re ortin

s ould proces data or events f ai to ar ive at the Gateway in a timely f as ion For

example, Host Ap l cation wi receive the "Update F i ure" Resp n e Code s ould the

proces data in the comman resp n e b stale;

• gateway comman s were ad ed;

• a Quarantined State was ad ed;

• CCA Modes were exten ed to b more in-lne with IEEE 8 2.15.4;

• clarif i ation on whitel st an blac l st management were ad ed;

• clarif i ation on join (e.g only req ire a sin le neig b r) were ad ed;

• clarif i ation on u e of join l n s, ta le management, an defaults were ad ed;

• cor ection an updates were made

The re der's at ention is drawn to the f act that An ex M l sts al of the “in-some-cou try”

clau es on dif ferin practices of a les p rmanent nature relatin to the s bject of this

stan ard

The text of this stan ard is b sed on the fol owin doc ments:

Ful inf ormation on the votin f or the a proval of this stan ard can b f ou d in the re ort on

votin in icated in the a ove ta le

This publcation has b en draf ted in ac ordan e with the ISO/IEC Directives, Part 2

The commit e has decided that the contents of this publ cation wi remain u c an ed u ti

the sta i ty date in icated on the IEC we site un er "htp:/we store.iec.c " in the data

related to the sp cif i publ cation At this date, the publ cation wi b

• recon rmed,

• with rawn,

• re laced by a revised edition, or

• amen ed

IMPORTANT – Th 'colour in ide' logo on the cov r pa e of this publ c tion indic te

that it contains colours whic are consid re to be us f ul f or th cor e t

understa ding of its conte ts Us rs s ould therefore print this doc me t usin a

colour printer

This International stan ard provides the sp cifi ation, def i ition , and prof ile f or a Wireles

commu ication network It s p lements IEC 61 5 -5-2 , IEC 61 5 -6-2 where some

Commu ication Prof ile CP 9/1, u iversal comman , is sp cif ied

This doc ment f ol ows the stru ture an con ention of IEC 61 5 series (f or example

se aration of DL-service def i ition an DL-protocol sp cif i ation) an con ention of

IEC 617 4-1 IEC 61 5 series sp cif y dif f erent commu ication network These are

stru tured in dif ferent Typ s The Typ 2 is as ig ed to tec nologies of Hart™

1

Commu ication Fou dation (HCF) For other as ig ments of Typ n mb rs se IEC 61 5 -1

IEC 617 4-1, an IEC 617 4-2 provide Commu ication Prof ile Fami es (CPF), an , within a

f ami y, one to n Commu ication Prof iles The as ig ed CPF n mb r f or tec nologies of the

HCF is CPF 9 F r other as ig ments of CPF n mb rs se IEC 61 5 -1

A new project n mb r IEC 6 5 1 was as ig ed to the Typ 2 en an ements an the

as ociated CP 9/2, so that this doc ment contain the Typ 2 sp cif i eq ivalent to the

IEC 61 5 series an of CPF 9 sp cif i prof ile u in the same con ention as u ed in

IEC 617 4-1 The eq ivalent of 4 Typ sp cif i s b arts an the profile are organized in this

doc ment in dif ferent clau es

The Typ 2 protocol s p orts two way digital commu ication for proces me s rement an

control devices Ap lcation in lu e remote proces varia le inter ogation, c cl cal ac es to

proces data, p rameter setin an diag ostic This doc ment def i es the sp cif i ation that

comprises the Typ 2 field commu ication protocol f or wireles devices Sp cifi ation of the

Typ 2 protocol is b sed largely on the OSI 7-layer Commu ication Model

The International Electrotec nical Commis ion (IEC) draws atention to the f act that it is

claimed that compl an e with this doc ment may in olve the u e of p tents con ernin the

claims of the p tents l sted b low given in the normative clau es

US 8 7 219 [H F] Combin d Wire a d Wirele s Commu ic tio s with Field De ic s in a

Pro e s Co trol En iro me t

US 8 9 0 4 [H F] In re sin Rela i ty a d Re u in L te c in a Wirele s Network

US 8 6 10 [H F] Sy c ro izin Time lots in a Wirele s Commu ic tio Proto ol

US 816 9 4 [H F] Su p n in Tra smis io s in a Wirele s Commu ic tio Network

US 8 7 7 6 [H F] En a cin Se urity in a Wirele s Network

US 8 7 7 9 [H F] En a cin Se urity in a Wirele s Network

US 8 518 9 [H F] Wirele s Gatewa in a Pro e s Co trol En iro me t Su p rtin a

Wirele s Commu ic tio Proto ol

US 8 7 9 2 [H F] Eff i ie t Ad re sin in Wirele s H RT Proto ol

US 8 4 219 [H F] Su p rt for Network Ma a eme t a d De ic Commu ic tio s in a

Wirele s Network

_

1

H RT™ a d Wirele sH RT™ are th tra e n me of FieldComm Gro p Th FieldComm Gro p is a n n-profit

tra e org niz tio to s p ort th H RT™ Commu ic tio This informatio is giv n for th c n e ie c of

u ers of this Intern tio al Sta d rd a d d e n t c n titute a e d rs me t b IEC of th tra e n me h ld r or

a y of its pro u ts Compla c to this d c me t d e n t re uire u e of th tra e n me Us of th tra e

htp:/w w.field ommgro p.org

US 8 0 2 8 [H F] Priority Ba e Sc e uln a d Ro tin ina Wirele s Network

IEC takes no p sition con ernin the eviden e, val dity an s o e of these p tent rig ts

The holder of these p tent rig ts has as ured IEC that s e/he is wi in to negotiate lcen es

either f re of c arge or u der re sona le an non-dis riminatory terms an con ition with

a pl cants throu hout the world In this resp ct, the statement of the holder of these p tent

rig ts is registered with IEC Information may b o tained from:

[H F] FieldComm Gro p

9 3 Re e rc Bo le ard

Suite 1 12

Au tin TX 7 7 9, USA

Atention is drawn to the p s ibi ty that some of the elements of this doc ment may b the

s bject of p tent rig ts other than those identif ied a ove IEC s al not b held resp n ible f or

identif yin an or al s c p tent rig ts

ISO (www.iso.org/p tents) an IEC (ht p:/ p tents.iec.c ) maintain on-l ne data b ses of

p tents relevant to their stan ard Users are en ouraged to con ult the data b ses f or the

most up to date information con ernin p tents

Commu ication Profile CP 9/2 in ad ition to IEC 617 4-1, CPF 9

This stan ard sp cifies the fol owin :

• Ph sical layer service def i ition an protocol sp cif i ation,

• Data-l n layer service an protocol,

• Ap l cation layer service an protocol,

• Network management,

• Sec rity,

• Commu ication prof ile,

The f olowin doc ments, in whole or in p rt, are normatively ref eren ed in this doc ment an

are in isp n a le f or its a pl cation For dated ref eren es, only the edition cited a pl es For

u dated ref eren es, the latest edition of the referen ed doc ment (in lu in an

amen ments) a pl es

IEC 61 5 -1:2 14, I ndu trial c mmu ic tion n twork – Fieldb s s e ific tio s – P art 1:

Ov rview a d g idan e for th IEC 61 58 a d IEC 61784 s rie

IEC 61 5 -2, I ndu trial c mmu ic tio n twork – Field bu s e ific tio s – P art 2: P hy ic l

la er s e ific tio a d s rvic definition

IEC 61 5 -3-2 :2 14, I nd ustrial c mmu ic tio n twork – Fieldb s s e ific tio s – P art

3-20: Data-li k lay r s rvic definition – Ty e 20 eleme ts

IEC 61 5 -4-2 :2 14, I nd ustrial c mmu ic tio n twork – Fieldbu s e ific tio s – P art

4-20: Data-ln la er proto ol s e ific tio – Ty e 20 eleme ts

P art 5-20: Ap lc tio lay r s rvic d efinitio – Ty e 20 eleme ts

P art 6-20: Ap li atio la er proto ol s e ific tio – Ty e 20 eleme ts

IEC 617 4-1:2 14, I ndu trial Commu ic tio N etwork – P rofil s – P art 1: Fieldbu profil s

IEC 617 4-2:2 14, I ndu trial Commu ic tio N etwork – P rofil s – P art 2: P art 2: Additio al

fieldbu profiles for re l-ime n twork b s d o I SO/I EC 8 02-3

ISO/IEC 7 9 -1, I nformation te h olo y – Op n Sy tems I nterc n e tio – Ba ic Refere c

Mod el Th Ba ic Model

ISO/IEC 7 9 -3, I nformatio te h olo y – Op n Sy tems Interc n e tio – Ba ic Referen e

Mod el: Namin a d ad dre sin

ISO/IEC/IEEE 6 5 9, I nformation te h olo y – M icro ro e s r Sy tems – Flo tin -P oint

arithmetic

ISO/IEC 8 2 (al p rts), Informatio Te h olo y – Ab tra t Sy ta N otatio On (ASN 1)

ISO/IEC 8 5 -1, Information tec n lo y – 8-bit sin le-b te c ded gra hic c ara ter s ts –

P art 1: L tin alp a et N o 1

ISO/IEC 9 4 , I nformatio te h olo y – Op n Sy tems I nterc n e tio – Ap lc tion L y r

stru ture

ISO/IEC 10 31, I nformatio te h olo y – Op n Sy tems Interc n e tio – Ba ic Refere c

Mod el – Co v ntion for th definitio of OSI s rvic s

IEEE Std 8 2-2 01, IEEE Sta dard for L c l a d Metro olita Are N etwork : Ov rview a d

Arc ite ture

IEEE Std 8 2.15.4-2 1 , I EEE Sta d ard for L c l a d metro o ta are n twork – P art

15.4: L w-Rate Wirele s P ers n l Are N etwork (LR-WP AN s)

IEEE Std 8 2.15.4 :2 12, I EEE Sta dard for L c l a d metro olita are n twork – P art

15.4: L w-Rate Wireles P ers n l Are N etwork (LR-WP AN s) – Ame d me t 1: M AC

s blay r

3 Terms, def initions, symbols, abbreviations and c nv ntions

For the purp ses of this doc ment, the fol owin terms as defi ed in these publ cation a ply

3.1 Ref ere c model terms a d d finitions

3.1.1 Terms a d def initions from ISO/IEC 7 9 -1 terms a d ISO/IEC 7 9 -3 terms

This stan ard is b sed in p rt on the con e ts develo ed in ISO/IEC 7 9 -1 an

ISO/IEC 7 9 -3, an makes u e of the fol owin terms defi ed therein

a) a plcation-as ociation

b) a plcation-context

c) a plcation context name

d) a plcation-entity-in ocation

e) a plcation-entity-typ

f ) a plcation-proces -in ocation

g) a plcation-proces -typ

h) a plcation-service-element

i) a plcation control service element

3.1.3 Terms a d definitions f rom ISO/IEC 8 2

u) prod ction

3.1.4 Terms a d def initions f rom ISO/IEC 8 2 -1

a) en odin (of a data value)

b) data value

c) identif ier octets ( he sin ular f orm is u ed in this stan ard)

d) len th octet s) (b th sin ular an plural f orms are u ed in this stan ard)

e) contents octets

3.2 Spe if ic terms a d definition

3.2.1

absolute slot number

cou t of al slots that have oc ur ed sin e the network was formed

Note 1 to e try: This n mb r alwa s in reme ts a d is n v r re et to a y fix d v lu or z ro Its c r e t v lu is

alwa s th s q e c n mb r of th c re t slot Its ma imum v lu is (2

0

– 1 after th t it rols o er to z ro

3.2.2

a k owle ge

expl cit data-l n resp n e to the s c es f ul rece tion of a directed, non-bro d ast DLPDU

f rom a DLE source device an the secon DLPDU of a two-DLPDU tran action

3.2.3

a apter

network device that ena les con ection an commu ication with a f ield device whic do s not

have a direct con ection to a Typ 2 network

3.2.4

DLPDU that in ites new devices into the network

Note 1 to e try: Wh n a d vic wis e to join a n twork, it lste s for th s DLPD s a d th n u e th

informatio in th DLPDU to s n hro iz with th n twork a d initiate th join pro e s

3.2.5

a alog c a nel

contin ou ly varyin electrical sig al con ectin a f ield device to the remain er of the data

ac uisition or control s stem

Note 1 to e try: Some field d vic s s p ort multiple a alo c a n ls (in ut or o tp t)

Note 2 to e try: Ea h a alo c a n l tra smits a sin le d n mic v ria le to or fom th f i ld d vic

Note 1 to e try: Multiple ty e of a plc tio o je t cla s s ma b d fin d.

[SOURCE: IEC 61 5 -6-9:2 14, 3.2.3]

3.2.9

appl c tion relations ip

co p rative as ociation b twe n two or more a pl cation-entity-in ocation for the purp se of

ex han e of information an co rdination of their joint o eration

Note 1 to e try: This relatio s ip is a tiv te eith r b th e c a g of a plc tio -proto ol-d ta-u its or a a

re ult of pre-c nfig ratio a tivitie

[SOURCE: IEC 61 5 -6-9:2 14, 3.2.8]

3.2.10

appl c tion relations ip e dpoint

context an b havior of an a pl cation relation hip as se n an maintained by one of the

a pl cation proces es in olved in the a pl cation relation hip

Note 1 to e try: Ea h a plc tio pro e s in olv d in th a plc tio relatio s ip maintain its own a plc tio

relatio s ip e d oint

des ription of an external y visible c aracteristic or f eature of an o ject

Note 1 to e try: Th atrib te of a o je t c ntain informatio a o t v ria le p rtio s of a o je t Ty ic ly,

th y pro id statu informatio or g v rn th o eratio of a o je t Atrib te ma als afe t th b h vior of a

o je t Atrib te are divid dinto cla s atrib te a d in ta c atrib te

in ication of how the o ject resp n s to p rtic lar events

Note 1 to e try: Its d s riptio in lu e th relatio s ip b twe n atrib te v lu s a d s rvic s

3.2.15

broa c st

proces of sen in a PDU to al devices that are con ected to the network an are a le to

receive the tran mis ion

set of o jects, al of whic re resent the same kin of s stem comp nent

Note 1 to e try: A cla s is a g n ralz tio of th o je t; a template f or d finin v ria le a d meth d Al

o je ts in a cla s areid ntic l inform a d b h vior, b t u u ly c ntain dif f ere t d ta in th ir atrib te

cla s spe ific s rvic

service defi ed by a p rtic lar o ject clas to p rf orm a req ired f un tion whic is not

p rf ormed by a common service

Note 1 to e try: A cla s s e ific o je t is u iq e to th o je t cla s whic d fin s it

3.2.2

cle r c a n l a s s me t

testin whi e the RF c an el is in u e to avoid initiatin a tran action

Note 1 to e try: It is p rorme b lste in to th c a n l prior to s n in th f irst DLPD of a tra s ctio If

sig al is d te te , th n th tra s ctio is d f ere to a later TDMA slot

3.2.2

cl e t

a) o ject whic u es the services of another (server) o ject to p rf orm a tas

b) initiator of a mes age to whic a server re cts, s c as the role of an AR en p int in whic

it is ues con rmed service req est APDUs to a sin le AR en p int actin as a server

[SOURCE: IEC 61 5 -6-9:2 14, 3.2.17]

3.2.2

coe iste c

state in whic al wireles commu ication solution of a plant u in s ared medium f ulf il al

their a pl cation commu ication req irements

Note 1 to e try: This is c n iste t with th d finitio of c e iste c in IE E 8 2.15.2-2 0

[SOURCE: IEC 6 6 7-2:2 13, 3.1.12]

conformity, conf orm to

res lt of an s stematic examination of the extent to whic a prod ct, proces or service f ulfils

compl a c , comply with

data or information b lon in or p rtainin to a stan ard, whic matc the req irements of

another stan ard, law, or b se doc ment

an entity containin an implementation of Typ 2 f ieldbu

Note 1 to e try: Th term d vic a d Wirele sH RT d vic are s n n ms of th term Ra io a d

Tele ommu ic tio s Termin l Eq ipme t (R T E) a d th term e uipme t u e in s me h rmo iz d sta d rd

col ection of device de en ent information an f un tional ty providin con isten y b twe n

simi ar devices of the same device typ

con ection b twe n a proces an an analog c an el

Note 1 to e try: A d vic ma c ntain primary, s c n ary, tertiary, a d q atern ry v ria le Th s are

dis re an y b twe n a computed, o served or me s red value or con ition an the sp cif ied

or the retical y cor ect value or con ition

network device that is con ected to the proces or to plant eq ipment

Note 1 to e try: It dire tly c n e ts to th s n or or a tu tor or p rorms pro e s c ntrol fu ctio a d it is dire tly

network device containin at le st one host interf ace s c as serial or Ethernet, actin as

in res or an egres p int ena l n commu ication b twe n host a plcation an field

devices

3.2.4

graph

col ection of directed p th amon network devices s c that more than one route is p s ible

f rom a source device to destination device

device is in commu ication with the network manager an has received at le st: the network

key, its nic name, the u icast network manager ses ion, a Sup rframe an l n s f rom the

network manager, gra h ed es, a time-source neig b r, an a route to the network manager

han held host a pl cation residin on a p rta le device

ha dh ld s perf rame

sp cif i s p rf rame for diag ostic

3.2.5

Harmonize Sta dard

l sted Euro e n stan ard in the of f icial Journal of the Euro e n Commis ion (EC)

3.2.5

hop

movement of a p c et directly b twe n two adjacent neig b rs in one network tran action

without the p rticip tion of an other node in the network

3.2.5

hop to l v

f ield in the network he der of e c p c et that sp cif ies how man more ho s a p c et can

travel b f ore b in dis arded

3.2.5

join

proces by whic a network device is authenticated an al owed to p rticip te in the network

Note 1 to e try: A d vic is c n id re Join d wh n it h s th n twork k y, a n twork ma a er s s io a d a

f ul commu ication sp cif i ation b twe n adjacent devices in a network an it in lu es the

commu ication p rameters neces ary to move a DLPDU one ho

Note 1 to e try: A Lin is a fu ctio of s urc a d d stin tio a dre s p irin , slot a d c a n l ofs t

a sig me t, dire tio of c mmu ic tio , d dic te or s are c mmu ic tio , a d ty e Lin s are a sig e to

value me s red by a mA in series with the f ield device

Note 1 to e try: Th lo p c r e t is a n ar D a alo 4 mA to 2 mA sig al u e to c mmu ic te a sin le v lu

b twe n th c ntrol s stem a d th field d vic Volta e mo e d vic s u e "Volts D " a th ir e gin erin u its

wh re "lo p c re t" v lu s are u e

mainte a c port

interf ace in the network device that is u ed f or provisionin

Note 1 to e try: This interf ac is u e to write th Join_k y a d n twork id ntifier, a d to mo itor th join

pro e s

3.2.6

ma a eme t inf ormation

network-ac es ible inf ormation that s p orts managin the o eration of the f ieldbu s stem,

in lu in the a pl cation layer

Note 1 to e try: Ma a in in lu e fu ctio s s c a c ntrol n , mo itorin , a d dia n sin

3.2.6

ma uf acturer ID

2 octet en meration identif yin the man facturer that prod ced a device

Note 1 to e try: A ma ufa turer is re uire to u e th v lu a sig e to it a d is n t p rmite to u e th v lu

a sig e to a oth r ma ufa turer

3.2.6

ma ter

device that initiates commu ication activity by sen in req est APDU to a device an

exp ctin a resp n e PDU

adjacent node in the network s c that the received sig al level (RSL) from it s g ests that

the commu ication is p s ible in at le st one direction

3.2.6

neighbor table

l st of al devices that the device con iders as neig b r

Note 1 to e try: It als store th atrib te of th n ig b r

3.2.7

network

series of nodes con ected by some typ of commu ication medium

Note 1 to e try: Th c n e tio p th b twe n a y p ir of n d s c n in lu e re e ters, ro ters a d g tewa s

3.2.71

network d vic

device with a direct ph sical layer con ection to the network

Note 1 to e try: Ea h n twork d vic h s a u iq e a dre s th t is u e in c mmu ic tio with th d vic

Network d vic s in lu e f i ld d vic , a c s p int (ie g tewa ), a a ter a d h n h ld

entity that is resp n ible f or con g ration of the network, s hed l n commu ication b twe n

network devices, management of the routin ta les an monitorin an re ortin the he lth of

non- e e tin n mb r con tru ted so as to b u iq e to the c r ent p c et an to en ure that

old commu ication can ot b reu ed in re lay atac s

Note 1 to e try: No c is n c s ary for maintainin p c et s cre y a d pro idin s n er a th nticity a d p c et

parameterization

con g rin a f ield device f or pro er o eration in a given plant in tal ation