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�� 1 �� 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .��, � � �� , � �� 3. . . . . . . . . . . . . . . . . . .�� 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 3. . . . . . . . . . . . . . . . . . . . . . . . .�� 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .� � 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .� �� 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 2 �� 9. . . . . . . . . . . . . . . . . . . . . . . . .�� 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

HART �� 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .� � 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 12. . . . . . . . . . . . . . . . . . . . . . . . .�� 12. . . . . . . . . . . . . . . . . . . . . . . . . . .

Rosemount� 333 HART Tri-Loop� HART-!�� "� #��$ % �� 13. . . . . . . . . . . .�� 3 �� 15. . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� &� 15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

�� 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .'� �� 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

�� 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .( 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .) !� 17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .��% 17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .*" � 17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� + 18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� ,- 18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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+#�/" �� 18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+#�/" �. 18. . . . . . . . . . . . . . . . . . . . . . . . . . . ./01 � �2 19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . ." �� 19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ." 3$ 20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4�� 21. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 5% 23. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6& 24. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+#� 6& 24. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ." 6& 27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+#�/" �' �� 27. . . . . . . . . . . . . . . . . . . . . . .

() � 78�� 28. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .*' �+�9 :�+ 30. . . . . . . . . . . . . . . . . . . . . . . . . . . .;" 36. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .;" �� 36. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 36. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .HART +� <, 37. . . . . . . . . . . . . . . . . . . . . . . . . . . .+-�.� ;" 37. . . . . . . . . . . . . . . . . . . . . . . . . . . .

�� 38. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .HART 5 / HART 7� +� 38. . . . . . . . . . . . . . . . . . . . . . . . . .

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��(��) �� 4 �� 39. . . . . . . . . . . . . . . . . . . . . . . . . . . . .� �� 39. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+#� � 40. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 40. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 41. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .>��? � 42. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

0 � 43. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ." 0 43. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .!�� *" � 44. . . . . . . . . . . . . . . . . . . . . . . . . .

1�� 45. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2� 7@ 1�� 45. . . . . . . . . . . . . . . . . . . . . . . . . . . .A� 7@ 1�� 46. . . . . . . . . . . . . . . . . . . . . . . . . . . .

PST � 47. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 5 �� , �� 48. . . . . . . . . . . .�� 48. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3B � 1C 4� +� 48. . . . . . . . . . . . . . . . . . . . . . . . . . .�� 48. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 5� 49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 3B 49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 6 49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7�8� D� E9 52. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .F� 54. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�+�9 () 54. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .*' �+�9 :�+(ODV�: �,) 54. . . . . . . . . .

+� 56. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 6 �� !" � 57. . . . . . . . . . . . .�� G�$ �;�9 H 58. . . . . . . . . . . . . . . . . . . . . . . .�< =�� 9 58. . . . . . . . . . . . . . . . . . . . . . . . . . . .��2 5� 58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .��I H 59. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�< =�� 59. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�< =�� H 60. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

�� < �� 9 61. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .I/P #�� 61. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .J> �� K(PWB) �;�9 63. . . . . . . . . . . . . . . . . . .� 1�� 65. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .��, L�1 M?� � N�� () 65. . . . . . . . . . . . . .��% 66. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .��% �� 66. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .��% H 67. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�� 67. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .� � J 67. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1�@ O�D 68. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .DVC6200 �A �E H99�+ 70. . . . . . . . . . . . . . . . . . . .�� 7 # 71. . . . . . . . . . . . . . . . . . . . . . . . . . . . .*I P� 71. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .*I Q+ 71. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PWB �;�9 71. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .*I 46 73. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�RS 73. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�T *I 73. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .�< =�� 73. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .I/P #�� ;�9 73. . . . . . . . . . . . . . . . . . . . . . . . . . . . .1�� 73. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .��% 74. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .G�$ �� % 74. . . . . . . . . . . . . . . . . . . . . . . . . . . . . ." ��, L�1 M?� BC N�� () �;�9 74. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

DVC6215 G�$ �� 74. . . . . . . . . . . . . . . . . . . . . . . . . . .HART �� 74. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .#$ A %& � 81. . . . . . . . . . . . . . . . . . . . . . . .HART T" 81. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .DVC6200 D�U () #+E? 81. . . . . . . . . . . . . . . . . . . .

#$ B �� '�( ) � 85. . . .�* �� 95. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+, 101. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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� Bulletin 62.1:DVC2000 - Fisher FIELDVUE DVC2000 D�U () #+E?(D103415X012)

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� �� 62.1:D�U () #+E? - Fisher FIELDVUE D�U () #+E? �I�(D104363X012)

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�� fVS �� > �� (2-3)

��C �� H `��TC ¢d*ST. �� C �� 6 �V �� b�9� �6mST(�E 5 X�). B2,)* ��C �P HART T" ��+ �� Öa � hC HART �° 48 5% �� VmST(HART �� ,D103639X012 X�).

4�2 u�2 ��H ��g �� H ½R< � hXST(o: ��E 3BV #�). �C �,QC ��\T ��BC ��< � hXST. �I ½R ��i ��Q� hXST. ½RH ��`a ��H ��2 T� ��V�Ea �T T� ØST(BC ��H ��%).

�� g, �� g, �� Õ� BC �� H ��g ��H ��K ��< � hXST. �?K½R ��C ��H � 3B�: �� BC ��< � hXST.

�� 2 �@2 �� !� ��C �E 5H X��Y�0.

HART 5R ~� / HART 7R ~�� fVS �� 5� > �� 9 > HART 5� +� / HART 7� +�(3-5-3) HC BC(3-5-4) AD, PD BC(3-5-5) ODV

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� dCC HART Universal 9�� 5� HART Universal 9�� 7(BC � e�)� ��H +��ST. F�� HART Universal 9�� 7 ��H �E�56 ��Q�C� J�Y�0. �� fVS �� aV b��H~�ST.


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� P�� D�U () #+E?V �R )e�p� !�� *" BC " 0H T� �< �� lXST. �?K78��H ��2 � � ��a ��2 T� D� > F� > $G? F� > �# F�a �.�g +#�a ��Y�0� �� 2 �@2 ��i T� � dCH X��Y�0.

�� fVS �� > �(2-4)

�� +#� � - �� X� 40

�� +#� � - �� X� 41

>��? � - �� X� 42

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1�� - �� X� 45

PST �(ODV �� : �,) - �� X� 47

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+#� �2� 7@ 1��H ��C �R �� BC �� a �.�a 1�� a v�<� ÎC b�� KNÏST.1��H ��`a YesH �.��, �a �Z�`a NoH �.�ST. �@2 ��i 45 ��V 1�� aX��Y�0.

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2. ��H In Service 3B� �� +#�� f N�H �� 8��C� J�ST.

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�� 2 �� a �R< � lXST.

T� �� u �K �3� ��a � hXST. 1. �.2 6& �� p� x! () <,� �� ¦� eJ+� 5�� kXST. '#$� >8I>$G? 8I>9�&/�:&H �.2 T� +/ 03H �.�ST(T� wi 6&�� .). 2. �.2 6& �� p� w� () D�� &�� k� <,� �� & ½´� ��Q�kXST. '# $� >8I>$G? 8I>9�&/�:&H �.2 T� +/ ,�(T� xi 6&�� .)H �.�ST.

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q& �� dCH ��g ��p� +#�a �< � hXST.

� !�� - � dCC 4-20mA �f N�H ��p� +��g ()H ��< � ha � ��mST.

� D�U �� - � dCC 4-20mA �f N�H ��p� +�< � la � ��mST.

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+ �f N�H ��V LOOP + � LOOP - �� ST. �f N�� 4~20mAH ��< � h�� ST.

�� fVS �� aV b�� ~t ��V +#�(%)a ��ST.

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1. () �V w7� Û �� *" �fH ��ST. OKH ·�ST.

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2. () 0% +#�� f N�H ��2 � OKH ·�ST.

3. () 100% +#�� f N�H ��2 � OKH ·�ST.

4. () 0% +#�� f N�H ��2 � OKH ·�ST.

5. () 100% +#�� f N�H ��2 � OKH ·�ST.

6. () 5% +#�� f N�H ��2 � OKH ·�ST.

7. () 95% +#�� f N�H ��2 � OKH ·�ST.


D�U � ��

+ �f N�H ��V LOOP + � LOOP - �� ST. �f N� 4-20mA� ��Q�� ST.

�� fVS �� aV b�� ~t ��V +#�(%)a ��ST.

1. () �V w7� Û �� *" �fH ��ST. OKH ·�ST.

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2. �� bc� +#�a 0%� ��C 7 ��2 +� O� � 9�H �.�ST.

Á ��, u� ��, Di ��a �.�a �� Ò 10.0%, 1.0% � 0.1% �� +�mST. TG �� 2 �R 2��He��ST. �Ñ� kpa �RH �.�� 3�� ST.

3. �� bc� +#�a 100%� ��C 7 ��2 +� O� � 9�H �.�ST.

TG �� 2 �R 3��H e��ST. �Ñ� kpa �RH �.�� 4�� ST.

4. �� bc� +#�a 0%� ��C 7 ��2 +� O� � 9�H �.�ST.


5. �� bc� +#�a 100%� ��C 7 ��2 +� O� � 9�H �.�ST.


6. �� bc� +#�a 5%� ��C 7 ��2 +� O� � 9�H �.�ST.


7. �� bc� +#�a 95%� ��C 7 ��2 +� O� � 9�H �.�ST.



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� � dCC I/P #�� BC � 1��H H< �\T !�mST. 78�� H ��< �K J> �� K�;�9H H2 �R � �a �� >��? �a �� \Y�0.

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1. �� " ��(Regulator)H ��V �� "p� ��ST. OKH ·�ST.

2. ��V ;" "� 0p� `N��, T� b�� KNÏST.

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b��H Ö� OKH ·�ST.

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4. �� bc� �� $p� �� O� � 9�H �.�ST.

Á ��, u� �� Di ��a �.�a �� Ò 3.0psi/0.207bar/20.7kPa, 0.30psi/0.0207bar/2.07kPa �0.03psi/0.00207bar/0.207kPa �� +�mST.

�� $� ;" "� )�� kpa OKH ·�� (4��)H e��g �� $a 8 ��ST. �� $�;" "� )��a �RH ·�� 5�� ST.

5. ��V ;" "� �� p� ��mST. T� b�� KNÏST.

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b��H Ö� OKH ·�ST.

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7. �� bc� �� $p� �� O� � 9�H �.�ST. �� $� ;" "� )�� kpa OKH ·�� (7��)H e��g �� $a 8 ��ST. �� $� ;" "� )��a �RH ·�� 8��ST.

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1. a) Zero Only BC b) Zero and Span(�� )a �.�ST.

a. Zero Only �a �.2 �R ��V �� "a ��56 �� " ��(Regulator)H ��ST. OKH·�ST. �� RQa 5�� ST.

b. Zero and Span �a �.2 �R ��V �� "a ��56 �� " ��(Regulator)H ��ST.OKH ·�ST. �� (Regulator)H ��V �� "p� ��ST. OKH ·�ST. 2��F��ST.

2. T� b�� KNÏST.

��QC "� �� "�)�< �� Increase �Decrease �.a ��ST.

� b��H Ö�pa Ja ·�ST.

3. " $� �a� ��mST.

4. �� bc� �� $p� �� O� � 9�H �.�ST.

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��QC $� �� "� )�< �� 2 � �RH �.�� 5�� ST.

5. ��H In Service 3B� �� "� �� "� )��C� J�ST.

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!�� *" 0H ��`a + �f N�H ��V LOOP+ � LOOP- �� ST. �f N�� 4~20mAV;"a ��< � h�� ST. �� fVS �� aV b�� ~t !�� *" 0H ��ST.

1. �f N�H �a� �� 4� $p� ��ST. 4� $i Input Range Low $*ST. OKH ·�ST.


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3. !�� *" $� �a� ��mST. OKH ±? �� bcH ��ST.

4. �� bc� �� $p� �� O� � 9�H �.�ST.

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��QC �f 4�$ )�<�� `N �.a��ST.


7. !�� *" $� �a� ��mST. OKH ±? �� bcH ��ST.

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�� fVS �� QC ;" "� �� "V 50 ~ 70% � �� d 4‐ 1� K$ hC @¬� �� D�9H��¼ST. � ��i ]R �`�ST. " $� &�� @a J2 � TG ��a ��Y�0(�� 78��V�R &�� 30 BC � �3� �1 � h�).

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F� F� u �� & % ��< � l� �g J

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3. �< =��H ¿!,� �RS(Q 1)� '9�ST. �RSa ��pa �< =��H �RSV ía O�p�»` �� ;�9� ª\�ST.

4. D�U () #+E?/=�� C �d 6‐ 1¬� J> �� K �;�9, +#� 0 � ��%a T� �< =��H��C 2�V �� ;�9 hXST. �< =�� ÉaV printed wiring board(PWB) �;�9� � ��;�9V ��a _XST.

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1. I/P #�� dC� ��2 �� I/P #��(Q 41)$ ��K(Q 169)a ��ST.

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I/P �V ��1. �d 6‐ 2a X��Y�0. �< =��(Q 2)� hC O-�(Q 39)� �9Á(Q 231)V 3BH &��ST. ��Ta O-��9Áa H�ST. O-�� v9x ��H ®�ST.

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3. �< =��(Q 2)� PWB �;�9(Q 50)H ê®� _� Û�ST.

4. PWB �;�9(Q 50)H ��2 �� O-�(Q 40)� �< =�� ;�9(Q 2)V " 0 �� ë! hC�J�ST.

Printed wiring board(PWB) *¹` �� DIP I1� ��1. " 0 O-�(Q 40)� v9x ��H ®�� < =�� ;�9� hC " 0 �� ST.

2. �< =�� < � PWB �;�9(Q 50)V O�a �d�� ST. I/P #��(Q 41)V �� é� PWB�;�9V x0+� ��Q� �< =��V " 0 �� PWB �;�9V x0+� ì U!� �ST.

3. PWB �;�9(Q 50)H �< =��V �í� l� æXST.

4. 3�V K�(Q 33)H �� 1N�m(10.1lbf�J�)V s9H ��g �*ST.

5. � 6‐ 2� ~t PWB �;�9� hC DIP ��H ��ST.

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4. �� fVS ��H ��g '1�� ' ]� +� $� �� 1�� )��C� J�ST.

5. 1��H H�� 1�� a J2 �� +#�a ��K ��_ �a ��g �5 ��a ��ST.

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1. ��%� ³a '9< � h56 ³(Q 4)V �� K�(Q 58)H ¾M�� ìST.

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4. �< =�� H dC� ~t �< =��H �RS� ��ST.

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DVC6200 �ã �� U I��LM ^_N� �Ea �º�� T� ��H J�Y�0.

1. �� KV �� ) !�C ___________________________________________________________________________

2. D�U () #+E? �� "�� 5%�S�? o _________ !S� _________

!µ �R �@� �� _____________________________________________________________________________

3. �°� �f 4.0mA$ 20.0mA) �R n1 -$ n1 + ��% K� ��H ��C �fH ��Y�0.________________V @ 4.0 mA _______________V @ 20.0 mA. (� $i 4.0mA� 8.6V��, 20mA� 8.8V �g� �ST).

4. HARTH T� D�U () #+E?$ T"< � hXS�? o _________ !S� _________

5. D�U () #+E?V F� �� ø*S�? AC ____ HC ____ AD ____ PD ____ ODV____

6. D�U () #+E?V �� ø*S�? ______________

7. D�U () #+E?V �� ø*S�? ______________

8. D�U () #+E? �� "D� ��" 3B*S�? o _________ !S� _________

9. D�U () #+E?V �� "Analog"� ��Q� hXS�? o _________ !S� _________

10. +#� #+E ��*S� !Sa " #+E ��*S�?

11. T� ]�+� K¨$i ù\*S�?

*" "� _________ �t�) "� _________%

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+#� 4� _________% +#� _________%

12. T� �� K¨$i �ø*S�?

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13. g�Ta ��V ValveLink 7��H ��Y�0(Status Monitor, Detailed Setup {).

��1. T� u �Ë D�U () #+E?H ��YS�? DVC6200 _____________ DVC6205/DVC6215 ____________________

2. DVC6200� �� 78��V ��_H, )-�, �N), ��W {� �÷� mS�?______________________________

3. ()V �H +#�� ÷� mS�?___________________________________________________________________________

4. �� Q+ *I !� �ø*S�?_____________________________________________________________________________

5. �� Q+ ��_H LBP/Customer) �R �� Fa �� PY�0.

6. �� Q+ �� ~t ��Q�XS�? o _________ !S� _________

7. ()V &� �� ÷� mS�? {> v� _________ �O v� _________

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# ;! �LM ^_N$ � �� 2 ��H �< ��C �3 �� ) !�H ¢` PY�0.

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Fisher< Þ� �� #×> ��k^[. Eíî E "�� É� ��i *ï* tEe Fisher ��E�� : �D. EíîE "�� É� ��> ��7 �:( �Y!� q rQð ��< ��E #%�>�� 23 4©> �o- q rsD.

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O� �� # �$

1* Elastomer Spare Parts Kit (kit contains parts to service one digital valve controller)

�Standard 19B5402X012�Extreme Temperature 19B5402X022

2* Small Hardware Spare Parts Kit (kit contains parts to service one digital valve controller) 19B5403X012

3* Seal Screen Kit [kit contains 25 seal screens (key 231) and 25 O‐rings (key 39)] 14B5072X182

4* Integral Mount Seal Kit (for 667 size 30i - 76i and GX actuators) [kit contains 5 seals (key 288)] 19B5402X032

5* Terminal Box Kit (see figure 7‐ 1)

+� � �p�: ��Y�0. T� ��%i PWB �;�9�� 9�� 2(HW2)$: ��mST.

Aluminum, without I/O Package

Standard 19B5401X142

Standard, M20 19B5401X342

Standard, Natural Gas Certified 19B5401X162

Standard, Natural Gas Certified, M20 19B5401X362

Extreme Temperature 19B5401X152

Extreme Temperature, M20 19B5401X352

Extreme Temperature, Natural Gas Certified 19B5401X172

Extreme Temperature, Natural Gas Certified, M20 19B5401X372

O� �� # �$

Aluminum, with I/O Package


Standard, M20 19B5401X392



Stainless Steel, without I/O Package

Extreme Temperature, Natural Gas Certified 19B5401X312

Extreme Temperature, Natural Gas Certified, M20 19B5401X382

Stainless Steel, with I/O Package



50 PWB Assembly (HW2) (see figure 7‐ 2 and 7‐ 4) for DVC6200 and

DVC6205

+�

T� PWB �;�9C �d 7‐ 1� hC ��%�: ��mST. H�"� ��< �R�C Emerson ^_N� �V�Y�0.

Hardware Revision 2 (HW2), without I/O Package

For instrument level HC

For instrument level AD

For instrument level PD

For instrument level ODV

Hardware Revision 2 (HW2), with I/O Package

For instrument level HC

For instrument level AD

For instrument level PD

For instrument level ODV

*!� o� *I


�� D103605X0KR

# 2019/ 11=

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�L 7‐ 1. �2�

I/O NO� "ñ I/O NO� ��

O� �� # �$

6* I/P Converter Kit



7* Spare Module Base Assembly Kit,

[kit contains module base (key 2); drive screws, qty. 2,

(key 11); shield/label (key 19); hex socket cap screw, qty. 3,

(key 38); self tapping screw, qty. 2 (key 49); pipe plug, qty. 3

(key 61); retaining ring, qty. 3 (key 154); screen (key 236);

and flame arrestors, qty. 3 (key 243)]

Aluminum GE18654X012

Stainless Steel GE18654X022

8* Spare Housing Assembly Kit

[kit contains housing (key 1); vent assembly (key 52);

seal (only included in Housing A kits) (key 288);

seal (key 237); O‐ring (key 34); O‐ring (only used

with integrally mounted regulator) (key 5)]

Aluminum

Housing A (used for GX actuator)

Standard GE48798X032

Extreme Temperature GE48798X042

Housing B (used for all actuators except GX)

Standard GE48798X072


Stainless Steel



�

9* Spare I/P Shroud Kit

[kit contains shroud (key 169) and

hex socket cap screw, qty. 4 (key 23)] GE29183X012

+�E� �� G�$ �� Q+(Q+ 10)C �K/�J ��p� J�*I !�� P�< � lXST. �, Q+ P�� 2 ��C�LM ^_N� �V�Y�0.

O� �� # �$

10 Remote Mount Feedback Unit Kit (see figure 7‐ 5)

[remote housing assembly (key25); hex socket set

screw (key 58); 1/2 NPT pipe plug (key 62); wire retainer, qty 2

(key 131); terminal cover (key 255); o-ring (key 256); gasket

(Housing A only, used for GX actuator) (key 287); seal

(Housing A only, used for GX actuator) (key 288)

11 Feedback Array Kit

Sliding Stem (Linear)

[kit contains feedback array and hex socket cap screws, qty. 2,

washer, plain, qty. 2, external tooth lock washer, qty. 2 (only

with aluminum feedback array kit) and alignment template.

210 mm (8-1/4 inch) kit contains feedback array and hex

socket cap screws, qty. 4, washer, plain, qty. 4, external tooth

lock washer, qty. 4 (only with aluminum feedback array kit),

alignment template and insert]. Stainless steel kits only for use

with stainless steel mounting kits.

7 mm (1/4-inch)

Aluminum GG20240X012

19 mm (3/4-inch)


Stainless steel GE65853X012

25 mm (1-inch)



38 mm (1-1/2 inch)



50 mm (2-inch)



110 mm (4-1/8 inch)



210 mm (8-1/4 inch)



Rotary

[Kit contains feedback assembly, pointer assembly, travel

indicator scale and M3 machine pan head screws qty. 2].

Stainless steel kits only for use with stainless steel mounting kits.


Stainless steel GG10562X022

Rotary array kit with coupler

[Kit contains feedback assembly and NAMUR coupler]

Aluminum GE71982X012


12 Mounting Shield Kit

[kit contains shield, qty. 3 and machine

screws, qty. 6] GG05242X022

13* Gasket/Seal Kit, for use with GX actuator

[kit contains insulating gasket (key 287)

and seal (key 288)] GE45468X012

*!� o� *I


�� D103605X0KR

#

2019/ 11=

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# �$

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�N �P �J/J� � ��C Emerson ^_N� �V�Y�0.

S+1 ¨t�sL e%� �� *I�C S+1 ¨t�sLe%mST. �2 �5 *I�C Mn0�v9x ¨t�sLe%mST.

O �� # �$

�RS(�d 7‐ 2 � 7‐ 4 X�)DVC6200 � DVC6205 1 Housing(8)

11 Drive Screw (2 req'd) (DVC6205 only)

20 Shield (DVC6205 only)

52 Vent(2)

74 Mounting Bracket (DVC6205 only)

248 Screw, hex head (4 req’d) (DVC6205 only)

249 Screw, hex head (4 req’d) (DVC6205 only)

250 Spacer (4 req’d) (DVC6205 only)

267 Standoff (2 req’d) (DVC6205 only)

271 Screen(8)

287 Gasket, Housing A only (used for GX actuator) (DVC6200 only)

288 Seal (used for 667 size 30i - 76i and GX actuators) (DVC6200 only)

�T *I(�d 7‐ 2, 7‐ 3 � 7‐ 4X�)DVC6200 � DVC6205

16* O‐ring(1) (3 req'd)

29 Warning label, for use only with LCIE hazardous area

classifications

33 Mach Screw, pan head(2) (3 req'd)

38 Cap Screw, hex socket(2)(7) (3 req'd)

43* Cover Assembly (includes cover screws)

Standard GG53748X012

Extreme temperature GG53748X022

48 Nameplate

49 Screw, self tapping (2 req'd)(7)

�61 Pipe Plug, hex socket(7)

Housing A with relay C (2 req'd ) (used for GX actuator)

Housing A with relay B (1 req'd) (used for GX actuator)

Housing B with relay B and C (1 req'd)

(used for all actuators except GX)

Not required for relay A

O� �� # �$

63 Lithium grease (not furnished with the instrument)

64 Pipe thread sealant, anaerobic (not furnished with the

instrument)

65 Lubricant, silicone sealant (not furnished with the instrument)

154 Retaining Ring(2) (3 req'd)

236 Screen (required for relay B and C only)(8)

237 Module Base Seal(1)

�< =��(�d 7‐ 2 � 7‐ 4X�)

DVC6200 � DVC6205 2 Module Base(7)

11 Drive Screw(7) (2 req'd)

12 O‐ring(1)

19 Shield(7)

�61 Pipe Plug, hex socket(7) (3 req'd)

243 Slotted Pin (flame arrestor)(7) (3 req'd)

I/P #�� ;�9(�d 7‐ 2 �7‐ 4 X�)

DVC6200 � DVC6205 23 Cap Screw, hex socket(2)(9) (4 req'd)

39* O‐ring(1)(3)(6)

41 I/P Converter(6)

169 Shroud(6)(9) (see figure 6‐ 3)

210* Boot(1)(6) (2 req'd) (see figure 6‐ 3)

231* Seal Screen(1)(3)(6)

1��(�d 7‐ 2 � 7‐ 4 X�)

DVC6200 � DVC6205�24* Relay Assembly, (includes shroud, relay seal, mounting screws)

Standard

Standard Bleed


Single‐acting direct (relay C) 38B5786X182

Single‐acting reverse (relay B) 38B5786X172



Double‐acting (relay A) 38B5786X052


Low Bleed




Housing B (used for all actuators except G)




*!� o� *I

1. ¨t�sL o� *I Q+ 2� �� g�ST. N� �� o� *I Q+ 3� �� g�ST. ï �a Q+ 6� �� g�ST. I/P #�� Q+ 7� �� g�ST. o� �Õ =�� ;�9 Q+ 8� �� g�ST. o� �RS �;�9 Q+ 9� �� g�ST. o� ��K Q+� �� g


�� D103605X0KR

# 2019/ 11=

74

O �� # �$

�24* Relay Assembly, (includes shroud, relay seal, mounting screws)

(continued)

Extreme Temperature

Standard Bleed




Low Bleed




n1 �� %(�d 7‐ 2 �7‐ 4 X�)DVC6200 � DVC6205 4 Terminal Box Cap

34* O‐ring(1)(5)

36* O‐ring(1)(5)

58 Set Screw, hex socket(2)

72 Cap Screw, hex socket(2)

164 Terminal Box Assembly

G�$ ��* ��%(�d 7‐ 4X�)DVC6205 4 Terminal Box Cap

34* O‐ring(1)(5)

36* O‐ring(1)(5)

58 Set Screw, hex socket(2)

62 Pipe Plug, hex hd

262 Adapter

263* O-ring

O ��

" ��, L�1 M?� �N�� () �;�9(�d 7‐ 3X�)

DVC6200 � DVC6205

47* Pressure Gauge

Double‐acting (3 req'd); Single‐acting (2 req'd)

PSI/MPA Gauge Scale

To 60 PSI, 0.4 MPa

To 160 PSI, 1.1 MPa

PSI/bar Gauge Scale

To 60 PSI, 4 bar

To 160 PSI, 11 bar

PSI/KG/CM2 Gauge Scale

To 60 PSI, 4 KG/CM2

To 160 PSI, 11 KG/CM2

66 Pipe Plug, hex head

For units w/o gauges

67 Tire Valve, used with Tire Valve Option only

Double‐acting (3 req'd); Single‐acting (2 req'd)

DVC6215 G�$ �v(�d 7‐ 5X�) 65 Lubricant, silicone sealant (not furnished with the instrument)

256* O-Ring

HART �� HF340, DIN rail mount

HF341, DIN rail Mount, pass through (no filter)

*Recommended spare parts

1. Available in the Elastomer Spare Parts Kit2. Available in the Small Hardware Spare Parts Kit5. Available in the Terminal Box Kit

�� D103605X0KR

#

2019/ 11=

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�L 7‐ 2. FIELDVUE DVC6200 �� }8 *¹`

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�}8 A - n7e(GX G�E( E ��Ì)

�}8 B - n7e(GX5 "ñ* 89G�E( E ��Ì)

GE40185 �+ 1/3

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�L 7‐ 2. FIELDVUE DVC6200 �� }8 *¹` (��)

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�u C-C �¸ 2 : 1

�u E-E �¸ 2 : 1

�u F-F �¸ 2 : 1

GE40185 �+ 2/3

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9(* �� < �} 47 > 67 R ��

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�u H-H

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GE40181

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�u E-E �¸ 2 : 1


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SSTE×

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�L 7‐ 4. FIELDVUE DVC6205 �� }8 *¹` (��)

WALL �� c(. ��

GE40181

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�L 7‐ 5. FIELDVUE DVC6215 �� Zb *¹`

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�� A-A

�^n� Éi #: 158

�^n� Éi #: 158

GE46670-B

GE40178-B

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#$ A %& � AA− A

HART "W HART(Highway Addressable Remote Transducer) 1�sti � �� 1�@� 7��$ D�U� T"�C�ga ��ST. � D�U T"i 1�@� "� u� l� 4-20mA 1�@� #+E "�H ��C �)2 2�� n1HT� �n�-ST. ~t �T FG _7�+ Z5� !�� 1�@� "�H #+E�C 7 ��< � hXST. �$�� HART 1�sti D�U F�, �� 9 � 8 1�@� 7�� 7@�< � h� �¯ST. � 1�sti��+ ��H T� �H �� T�a ��ST.

HART 1�sti FSK(PL� ,� O()H ��ST. 1200Hz$ 2200HzV � PL� � � 4-20mA �f "��uúmST. �?2 PL�C ø� 1� 0a KN¡ST(�d A‐ 1 X�). PL� "�H 4-20mA �f� e�a D�U T"��mST. HART "�V �#$i 0�¥� DC $i 4-20mA "�� 8Q� kXST. ~t 1�@� "� u� l�F�2 �� T"� v mST.

�L A‐ 1. HART ;cq P( �� ã

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HART 1�sti Ãá �ù, ¾ g? ��H �) T" �� §+¶Ô�C �ga ��ST. � 1�@�C Pipelines,Custody Transfer Sites, Tank Farms �i E� �M9 �ia �S��C 7 ��ST. Ãá �ùa �� J> �� KDIP �� a +��C OW� �2 ��i � 6‐ 2H X��Y�0.

DVC6200 �� DVC6200 D�U () #+E? �RS�C � ��K ��a '9�� k�5 h� H< � hC +#� 0, ��%,�� *;" �� < =�� _� hXST. �< =��C I/P #��, J> �� K(pwb) �;�9 � � 1��{V ) �<� e%Q� hXST. 1�� e�ii J> �� KV m��H T� 1�� ÐV ��a 0� `��COWp� `�mST. � 0C MLFB(\�p n1 G�$) �� mST. �< =��C ) �<a H�g T��D< � hXST. �d A‐ 3, A‐ 4, A‐ 5, A‐ 6H X��Y�0.

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�L A‐ 2. P�, ValveLink �.�È*� FIELDVUE ��-PC /�

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DVC6200 D�U () #+E?C ��vV *" "�� Â�g #+E () e�ia ��C n1 ��( ��*ST.T�i G�É 78�� 2�-7@ D�U () #+E?� �2 ��*ST.

*" "�C �) ��a T� ��%p� �� T� J> �� K �;�9 ) �<� ��mST. � $i\�9�1�@� Ö� D�U ¢�9û� V� ¬9Q� !�� I/P �� "�� +�mST.

*" "� ��a I/P #��V �� "� ��g I/P ;" "� 3��ST. I/P ;" "i � 1�� )�<� ��mST. B2 1��C �� "� ��Q� hpz, I/P #��V Di � "�H ��ST. 1��C �� "�H �"�g � � ;" "a ��ST. *"(4-20mA "�)a w�a ;" A "i �3 �� ;" B"i `N�ST. ;" A "i 2� 7@ � A� 7@ âª 5� '�� mST. ;" B "i 2� 7@ � A� 7@9�� 7@ 5� '�� mST. �d A‐ 3, A‐ 4, A‐ 5� �� , ;" A "a w�a 78�� !#��ST. �� e�ii �ª«( +#� G�$ 0� V� `�mST. ��i Û®G �� e�i� �� Z!#� ��ST. �� J> �� K �;�9C I/P �� "�H &��ST. B2 M#ÇH �� £ö "V 83�a O��ST.

*" "� `N�a I/P #�� ) �<� `N�g I/P ;" "� ��ST. � 1��C ;" A "a x8� ;"B "a w*ST. ��i Û®G e�i� �� ST. �� J> �� K �;�9C I/P �� "�H&��ST. B2 M#ÇH �� £ö "V 8 ��a O��ST.

�� D103605X0KR

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�L A‐ 3. FIELDVUE DVC6200 �� `$ D(*�Ð

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Actual Travel B- 5

Actuator Manufacturer B- 5

Actuator Model B- 5

Actuator Selection B- 5

Actuator Size B- 5

Actuator Style B- 7

Air B- 5

Alert Record Full(Alert Record/Status Alerts Enable)

B- 9

Alert Record Full(Alert Record/Status Alerts NE107)

B- 9

Alert Record Not Empty(Alert Record/Status Alerts Enable)

B- 9

Alert Record Not Empty(Alert Record/Status Alerts NE107)

B- 9

Alert Switch Source B- 7

Analog Input B- 3, B- 11

Analog Input (Calibration) B- 10

Analog Input Units B- 5

Area Units B- 5

Auto Calibration B- 4, B- 10

Autocal in Progress(Alert Record/Status Alerts Enable)

B- 9

Autocal in Progress(Alert Record/Status Alerts NE107)

B- 9

Auxiliary Terminal Action B- 5

Auxiliary Terminal Action, Edit B- 5

Breakout Timeout B- 7

Breakout Torque B- 5

Burst Command B- 7

Burst Enable B- 7

Calibration Button B- 5

Calibration in Progress(Alert Record/Status Alerts Enable)

B- 9

Calibration in Progress(Alert Record/Status Alerts NE107)

B- 9

Calibration Record B- 10

Calibration Time B- 10

Calibration Type B- 10

Calibrator B- 10

Change Control Mode B- 6, B- 11

Change Instrument Mode B- 1, B- 5

Change to HART 5 / Change to HART 7 B- 11

Change Travel/Pressure Select B- 6, B- 11

Change Write Protection B- 1, B- 3, B- 5

Clear Records B- 9, B- 11

Control Mode B- 6, B- 11

Critical NVM Failure (PST Prohibited Electronics Alerts)

B- 9

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Critical NVM Failure (Electronics Alerts NE107) B- 8

Critical NVM Failure Shutdown B- 8

Custom Characterization B- 6, B- 11

Cycle Count B- 8, B- 11

Cycle Count Hi (Travel History Alerts Enable) B- 8

Cycle Count High (Travel History Alerts NE107) B- 8

Cycle Count High Alert Point B- 8

Cycle Count/Travel Accum Deadband B- 8

Days Powered Up B- 11

DD Information B- 3

Description B- 3, B- 5

Device ID B- 3

Device Revision B- 3

Device Setup B- 4

Device Status B- 3, B- 11

Diagnostic Data Available(Alert Record/Status Alerts Enable)

B- 9

Diagnostic Data Available(Alert Record/Status Alerts NE107)

B- 9

Diagnostic in Progress(Alert Record/Status Alerts Enable)

B- 9

Diagnostic in Progress(Alert Record/Status Alerts NE107)

B- 9

Drive Current Failure (Electronics Alerts NE107) B- 8

Drive Current Failure (PST Prohibited Electronics Alerts)

B- 9

Drive Current Failure Shutdown B- 8

Drive Signal B- 3, B- 11

Drive Signal (Electronics Alerts Enable) B- 8

Drive Signal (Electronics Alerts NE107) B- 8

Dynamic Torque B- 5

Edit Cycle Counts B- 8

Edit Instrument Time B- 5, B- 9

Edit Travel Accumulator B- 8

Effective Area B- 5

Fail Signal B- 7

Fallback RecoveryB- 6, B- 9,B- 11

Fallback-Sensor Failure B- 9

Fallback-Sensor/Travel Deviation B- 9

Feedback Connection B- 5, B- 7

Firmware Revision B- 3

Flash Integrity Failure (Electronics Alerts NE107) B- 8

Flash Integrity Failure(PST Prohibited Electronics Alerts)

B- 9

Flash Integrity Failure Shutdown B- 8

Flow Direction B- 5

Flow Tends to B- 5

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Function B- 7

Hardware Revision (Device) B- 3

HART Long Tag B- 3, B- 5

HART Tag B- 3, B- 5

HART Universal Revision B- 3

HART Variable Assignments B- 7

High Friction Breakout Pressure B- 7

Hi Limit/Cutoff Point B- 6, B- 8

Hi Limit/Cutoff Select B- 6

Hi Soft Cutoff Rate B- 6

Incoming Pressure Threshold B- 7

Inlet Pressure B- 5

Input Characterization B- 6, B- 11

Input Range Hi B- 5

Input Range Lo B- 5

Instrument Alert Record B- 9

Instrument Level B- 3

Instrument Mode B- 1, B- 5

Instrument Serial Number B- 3, B- 5

Instrument Time is Approximate(Alert Record/Status Alerts Enable)

B- 9

Instrument Time is Approximate(Alert Record/Status Alerts NE107)

B- 9

Integral Enable (Travel & Pressure Tuning) B- 7

Integral Gain (Travel & Pressure Tuning) B- 7

Integrator Limit B- 7

Integrator Saturated Hi(Alert Record/Status Alerts Enable)

B- 9

Integrator Saturated Hi(Alert Record/Status Alerts NE107)

B- 9

Integrator Saturated Lo(Alert Record/Status Alerts Enable)

B- 9

Integrator Saturated Lo(Alert Record/Status Alerts NE107)

B- 9

Integral Dead Zone B- 7

Last AutoCal Status B- 10

Last PST Results B- 7

Leak Class B- 5

Length Units B- 5

Lever Arm Length B- 5

Lever Style B- 5

Limit Switch Trip Point B- 7

Limit Switch Valve Close B- 5

Limit Switch Valve Open B- 5

Lo Limit/Cutoff Point B- 6, B- 8

Lo Limit/Cutoff Select B- 6

Lo Soft Cutoff Range B- 6

Low Friction Breakout Pressure B- 7

Lower Bench Set B- 5

Manual Calibration B- 10

Manufacturer (Device) B- 3

Maximum Allowable Travel Movement B- 7

Maximum Recorded Temperature B- 11

Maximum Supply Pressure B- 7

Message B- 3, B- 5

Minimum Recorded Temperature B- 11

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Minimum Required Travel Movement B- 7

Minor Loop Sensor Failure(PST Prohibited Electronics Alerts)

B- 9

Minor Loop Sensor Failure(PST Prohibited Electronic Alerts)

B- 9

Minor Loop Sensor Failure (Sensor Alert NE107) B- 9

Minor Loop Sensor Failure Shutdown B- 9

MLFB Gain (Travel & Pressure Tuning) B- 7

Model (Device) B- 3

Nominal Supply B- 5

Non-Critical NVM Failure (Electronics Alerts NE107)

B- 8

Non-Critical NVM Failure Shutdown B- 8

Number of Power Ups B- 11

Outgoing Pressure Threshold B- 7

Output Circuit Error (Electronics Alerts Enable) B- 8

Output Circuit Error (Electronics Alerts NE107) B- 8

Outlet Pressure B- 5

Output Pressure Limit Enable B- 8

Output Terminal Enable B- 7

Packing Type B- 5

Partial Stroke Test B- 11

Polling Address B- 5

Port A Overpressurized (Pressure Alerts Enable) B- 8

Port A Overpressurized (Pressure Alerts NE107) B- 8

Port A Pressure Limit B- 8

Port Diameter B- 5

Port Type B- 5

Position Transmitter B- 5

Pressure A B- 3, B- 11

Pressure A-B B- 3, B- 11

Pressure B B- 3, B- 11

Pressure Control B- 9

Pressure Deviation Alert Point B- 8

Pressure Deviation (Pressure Alerts Enable) B- 8

Pressure Deviation (Pressure Alerts NE107) B- 8

Pressure Deviation Time B- 8

Pressure Fallback Active(PST Prohibited Alerts Enable)

B- 9

Pressure Fallback Active (Sensor Alerts Enable) B- 9

Pressure Fallback Active (Sensor Alerts NE107) B- 9

Pressure Range High B- 6

Pressure Range Low B- 6

Pressure Sensor Failure(PST Prohibited Alerts Enable)

B- 9

Pressure Sensor Failure(Sensor Alerts NE107)

B- 9

Pressure Sensor Failure Shutdown B- 9

Pressure Sensors (Calibration) B- 10

Pressure Tuning Set B- 7

Pressure Units B- 5

Program Flow Failure (Partial Stroke Alerts NE107) B- 9

Program Flow Failure Shutdown B- 9

Proportional Gain (Travel & Pressure Tuning) B- 7

PST Abnormal (Partial Stroke Alerts Enable) B- 9

PST Abnormal (Partial Stroke Alerts NE107) B- 9

PST Abnormal Criteria B- 7

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PST Abort Criteria B- 7

PST Enable B- 7

PST Calibration B- 10

PST Deferral Reason B- 7

PST Pass (Partial Stroke Alerts Enable) B- 9

PST Pass (Partial Stroke Alerts NE107) B- 9

PST Prohibited (Partial Stroke Alerts Enable) B- 9

PST Prohibited (Partial Stroke Alerts NE107) B- 9

PST Result Criticality B- 7

PST Start Point B- 7

PST Variables B- 7

Push Down To B- 5

PWB Serial Number B- 3

Quick Release B- 5

Rated Travel B- 5

Relay Adjust B- 10

Relay Type B- 7

Reference Voltage Failure

(Electronics Alerts NE107)B- 8

Reference Voltage Failure(PST Prohibited Electronics Alerts)

B- 9

Reference Voltage Failure Shutdown B- 8

Reset PST Abnormal Alert B- 11

Restart Control Mode B- 6, B- 11

Restart Processor B- 11

Return Lead B- 7

Seat Type (Trim) B- 5

Setpoint B- 3, B- 8, B- 11

Short Duration PST B- 7

Shutdown Activated (Electronics Alerts Enable) B- 8

Shutdown Activated (Electronics Alerts NE107) B- 8

Simulate B- 11

Solenoid Valve B- 5

SP Rate Close B- 6

SP Rate Open B- 6

Spring Rate B- 5

Spring Rate Units B- 5

Stabilize/Optimize B- 7, B- 11

Stem Diameter B- 5

Stroke Valve B- 11

Supply Pressure B- 3, B- 8, B- 11

Supply Pressure Hi (Pressure Alerts Enable) B- 8

Supply Pressure Hi (Pressure Alerts NE107) B- 8

Supply Pressure Hi Alert Point B- 8

Supply Pressure Lo (PST Prohibited Alerts Enable) B- 8

Supply Pressure Lo (Pressure Alerts Enable) B- 8

Supply Pressure Lo Alert Point B- 6, B- 8

Switch Closed B- 7

Temperature B- 11

Temperature Units B- 5

Temp Sensor Failure (PST Prohibited Alerts Enable)

B- 9

Temp Sensor Failure (Sensor Alerts NE107) B- 9

Temp Sensor Failure Shutdown B- 9

Torque Units B- 5

Transmitter Output B- 7

Travel B- 3, B- 8, B- 11

Travel Accumulator (Alert Setup) B- 8

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Travel Accumulator (Travel History) B- 11

Travel Accumulator Alert Point B- 8

Travel Accumulator High (Travel History Alerts Enable)

B- 8

Travel Accumulator High (Travel History Alerts NE107)

B- 8

Travel Alert Deadband B- 8

Travel Control B- 9

Travel Counts B- 11

Travel Deviation B- 8

Travel Deviation (PST Prohibited Alerts Enable) B- 9

Travel Deviation (Travel Alerts Enable) B- 8

Travel Deviation (Travel Alerts NE107) B- 8

Travel Deviation Alert Point B- 8

Travel Deviation Time B- 8

Travel Deviation Pressure Fallback B- 6

Travel Deviation Pressure Fallback Time B- 6

Travel Hi (Travel Alerts Enable) B- 8

Travel Hi (Travel Alerts NE107) B- 8

Travel Hi Hi (Travel Alerts Enable) B- 8

Travel Hi Hi (Travel Alerts NE107) B- 8

Travel Hi Alert Point B- 8

Travel Hi Hi Alert Point B- 8

Travel Lo (Travel Alerts Enable) B- 8

Travel Lo (Travel Alerts NE107) B- 8

Travel Lo Lo (Travel Alerts Enable) B- 8

Travel Lo Lo (Travel Alerts NE107) B- 8

Travel Lo Alert Point B- 8

Travel Lo Lo Alert Point B- 8

Travel Limit/Cutoff Hi (Travel Alerts Enable) B- 8

Travel Limit/Cutoff Hi (Travel Alerts NE107) B- 8

Travel Limit/Cutoff Lo (Travel Alerts Enable) B- 8

Travel Limit/Cutoff Lo (Travel Alerts NE107) B- 8

Travel/Pressure Select B- 6, B- 9, B- 11

Travel Sensor Failure (Sensor Alerts NE107) B- 9

Travel Sensor Failure(PST Prohibited Alerts Enable)

B- 9

Travel Sensor Failure Shutdown B- 9

Travel Sensor Motion B- 5, B- 7

Travel Tuning Set B- 7

Travel Units B- 5

Unbalanced Area B- 5

Upper Bench Set B- 5

Valve Class B- 5

Valve Manufacturer B- 5

Valve Model B- 5

Valve Serial Number B- 3, B- 5

Valve Size B- 5

Valve Style B- 5, B- 7

Velocity Gain B- 7

View Alert Records B- 9, B- 11

View/Edit Burst Messages B- 7

View/Edit Lag Time B- 6

Volume Booster B- 5

Write Protection B- 1, B- 3, B- 5

Zero Power Condition B- 7

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Hot Key

1 Instrument Mode2 Change Instrument Mode3 Write Protection4 Change Write Protection

Online

1 Overview2 Configure3 Service Tools

HART Application

1 Offline2 Online3 Utility4 HART Diagnostics

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Overview

1 Device Status2 Analog Input3 Setpoint4 Travel5 Drive Signal6 Pressure Variables7 Device Information

Device Information

1 Identification2 Revisions3 Security

Identification

1 HART Tag2 HART Long Tag3 Manufacturer4 Model5 Instrument Level6 Device ID and Serial Numbers7 Message8 Description

Revisions

1 HART Universal Revision2 Device Revision3 Hardware Revision4 Firmware Revision5 DD Information

Security

1 Write Protection2 Change Write Protection

1-7

1-7-3

Device ID and Serial Numbers

1 Device ID2 Valve Serial Number3 Instrument Serial Number4 PWB Serial Number

21

Pressure Variables

1 Supply Pressure2 Pressure A3 Pressure B4 Pressure A-B

1-7-1

1-7-1-6

1-7-2

1-6

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Guided Setup

1 Device Setup2 Auto Calibration

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Manual Setup

1 Mode and Protection2 Instrument3 Travel/Pressure Control4 Tuning5 Valve and Actuator6 Partial Stroke Test (PST)7 Outputs

Mode and Protection

1 Instrument Mode2 Change Instrument Mode3 Write Protection4 Change Write Protection

Instrument

1 Identification2 Serial Numbers3 Units4 Terminal Box5 Analog Input Range6 Spec Sheet7 Edit Instrument Time

Identification

1 HART Tag2 HART Long Tag3 Description4 Message5 Polling Address

Serial Numbers

1 Instrument Serial Number2 Valve Serial Number

Units

1 Pressure Units2 Temperature Units3 Analog Input Units

Terminal Box

1 Calibration Button2 Auxiliary Terminal Action3 Edit Auxiliary Terminal Action

Spec Sheet

1 Units2 Valve3 Trim4 Actuator5 Accessories

2-2-1 2-2-2-1

2-2-2-2

2-2-2-3

2-2-2-4

2-2-2-5

2-2-2-6

Analog Input Range

1 Input Range Hi2 Input Range Lo

1

2

Units

1 Travel Units2 Length Units3 Area Units4 Spring Rate Units5 Torque Units

Trim

1 Seat Type2 Leak Class3 Port Diameter4 Port Type5 Flow Direction6 Push Down To7 Flow Tends To8 Unbalanced Area

Valve Travel

1 Rated Travel2 Actual Travel

Inlet/Outlet Pressures

1 Inlet Pressure2 Outlet Pressure

Valve

1 Valve Manufacturer2 Valve Model3 Valve Serial Number4 Valve Style5 Stem Diameter6 Packing Type7 Valve Travel8 Inlet/Outlet Pressures9 Torque

Actuator

1 Actuator Manufacturer2 Actuator Model3 Actuator Size4 Actuator Selection5 Travel6 Lever Style7 Effective Area8 Spring Rate9 Air

Accessories

1 Volume Booster2 Quick Release3 Solenoid Valve4 Position Transmitter5 Limit Switch Valve Open6 Limit Switch Valve Close

2

2-2-2-6-1

2-2-2-6-3

2-2-2-6-4

2-2-2-6-5

2-2-2-6-2

2-2-2-6-2-7

2-2-2-6-2-8

2-2-2

Travel

1 Feedback Connection2 Travel Sensor Motion

2-2-2-6-4-5Air

1 Air2 Upper Bench Set3 Lower Bench Set4 Nominal Supply

2-2-2-6-4-9

Torque

1 Dynamic Torque2 Breakout Torque

2-2-2-6-2-9

Lever Style

1 Lever Style2 Lever Arm Length

2-2-2-6-4-63

3

3

3

Valve Style

1 Valve Style2 Valve Size3 Valve Class

2-2-2-6-2-4

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Manual Setup

1 Mode and Protection2 Instrument3 Travel/Pressure Control4 Tuning5 Valve and Actuator6 Partial Stroke Test (PST)7 Outputs

Travel/Pressure Control

1 Travel/Pressure Select2 Change Travel/Pressure Select3 Cutoffs/Limits4 Pressure Control5 Pressure Fallback6 Control Mode7 Characterization8 Dynamic Response

Pressure Fallback

1 Tvl Dev Press Fallback2 Tvl Dev Press Fallback Time3 Fallback Recovery4 Supply Pressure Lo Alert Point

Pressure Control

1 Pressure Range High2 Pressure Range Low

Control Mode

1 Control Mode2 Change Control Mode3 Restart Control Mode

Characterization

1 Input Characterization2 Custom Characterization

Dynamic Response

1 SP Rate Open2 SP Rate Close3 View/Edit Lag Time

2-2-3-3

Cutoffs and Limits

1 Hi Limit/Cutoff Select2 Hi Limit/Cutoff Point3 Hi Soft Cutoff Rate4 Lo Limit/Cutoff Select5 Lo Limit/Cutoff Point6 Lo Soft Cutoff Rate

2-2-3-4

2-2-3-7 (AD, PD, ODV)

2-2-3-5 (AD, PD, ODV)

2-2-3-5 (HC)

2-2-3

1

2-2-3-6 (AD, PD, ODV)

2-2-3-6 (HC)

2-2-3-7 (HC)2-2-3-8 (AD, PD, ODV)

1

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Manual Setup

1 Mode and Protection2 Instrument3 Travel/Pressure Control4 Tuning5 Valve and Actuator6 Partial Stroke7 Outputs

Outputs

1 Output Terminal Config2 Limit Switch Configuration3 Alert Switch Configuration4 HART Var Assignments5 Transmitter Output6 Burst Mode

HART Var Assignments

1 Primary Variable (PV)2 Secondary Variable (SV)3 Tertiary Variable (TV)4 Quaternary Variable (QV)

Output Terminal Config

1 Output Terminal Enable2 Function3 Fail Signal

2-2-6 (HC, AD, PD)

2-2-6-1 (HC, AD, PD)

Valve and Actuator

1 Valve Style2 Actuator Style3 Feedback Connection4 Relay Type5 Zero Power Condition6 Travel Sensor Motion7 Max Supply Pressure

Pressure Tuning

1 Pressure Tuning Set2 Proportional Gain3 MLFB Gain4 Integral Enable5 Integral Gain

Travel/Pressure Integral Settings

1 Integral Dead Zone2 Integrator Limit

Tuning

1 Travel Tuning2 Pressure Tuning3 Travel/Pressure Integral Settings

Travel Tuning

1 Travel Tuning Set2 Proportional Gain3 Velocity Gain4 MLFB Gain5 Integral Enable6 Integral Gain7 Stabilize/Optimize

2-2-5

2-2-4

2-2-6-2 (HC, AD, PD)

2-2-4-3

2-2-4-1

Limit Switch Configuration

1 Limit Switch Trip Point2 Switch Closed

2-2-7 (ODV)

2-2-4-2

Partial Stroke

1 Test Configuration2 Test Acceptance Criteria3 PST Alert Behavior4 PST Deferral Reason5 Last PST results

1

1

2-2-6WITH I/O PACKAGE

Burst Mode

1 Burst Enable2 View/Edit Burst Messages

2-2-7-2 (ODV)

2-2-7-1 (ODV)

WIT

H I/

O P

AC

KA

GE

2-2-6-6 (HC, AD, PD)

2-2-7-6 (ODV)

WIT

HO

UT

I/O

PA

CK

AG

E

Outputs

1 HART Var Assignments2 Burst Mode

HART Var Assignments

1 Primary Variable (PV)2 Secondary Variable (SV)3 Tertiary Variable (TV)4 Quaternary Variable (QV)

2-2-6 (HC, AD, PD)2-2-7 (ODV)

WITHOUT I/O PACKAGE

Burst Mode

1 Burst Enable2 View/Edit Burst Messages

2-2-6-1 (HC, AD, PD)2-2-7-1 (ODV)

2-2-6-2 (HC, AD, PD)2-2-7-2 (ODV)

Alert Switch Configuration

1 Alert Switch Source

2-2-6-4 (HC, AD, PD)

2-2-7-4 (ODV)

2-2-6-3 (HC, AD, PD)

2-2-7-3 (ODV)

Test Configuration

1 PST Enable2 PST Start Point3 PST Variables4 Return Lead 5 Short Duration PST6 Max Allowable Travel Movement7 Min Required Travel Movement

Test Acceptance Criteria

1 Outgoing Pressure Threshold2 Incoming Pressure Threshold3 High Friction Breakout Press4 Low Friction Breakout Press5 Breakout Timeout

2

2-2-6-1

2-2-6-2

2

PST Alert Behavior

1 PST Abnormal Criteria2 PST Abort Criteria3 PST Result Criticality

2-2-6-3

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Electronic Alerts Enable

1 Drive Signal2 Shutdown Activated3 Output Circuit Error

Electronics

1 Electronic Alerts Enable2 Electronic Alerts NE1073 Electronic Alerts Shutdown

2-3-1

Alert Setup

1 Electronics2 Pressure3 Travel4 Travel History5 Partial Stroke6 Sensors7 Alert Record/Status

Travel

1 Travel Alerts Enable2 Travel Alerts NE1073 Travel4 Setpoint5 Travel Alert DB6 Travel Deviation7 Travel Limit8 Travel Limit/Cutoff

Travel Deviation

1 Travel Deviation2 Travel Deviation Alert Point3 Travel Deviation Time

Travel Limit

1 Travel Hi Hi Alert Point2 Travel Lo Lo Alert Point3 Travel Hi Alert Point4 Travel Lo Alert Point

Travel Limit/Cutoff

1 Hi Limit/Cutoff Point2 Lo Limit/Cutoff Point

Travel History

1 Travel History Alerts Enable2 Travel History Alerts NE1073 Cycle Count/Travel Accum Deadband4 Cycle Counter5 Travel Accumulator

Electronic Alerts Shutdown

1 Drive Current Failure Shutdown2 Critical NVM Failure Shutdown3 Non-Critical NVM Failure Shutdown4 Flash Integrity Failure Shutdown5 Reference Voltage Failure Shutdown

Pressure

1 Pressure Alerts Enable2 Pressure Alert NE1072 Supply Pressure3 Supply Pressure Hi Alert Point4 Supply Pressure Lo Alert Point5 Pressure Deviation Alert Point6 Pressure Deviation Time7 Port A Pressure Limit8 Output Pressure Limit Enable

Pressure Alerts Enable

1 Supply Pressure Hi2 Supply Pressure Lo3 Pressure Deviation4 Port A Overpressurized

Travel Alerts Enable

1 Tvl Deviation2 Tvl Hi Hi3 Tvl Lo Lo4 Tvl Hi5 Tvl Lo6 Tvl Limit/Cutoff Hi7 Tvl Limit/Cutoff Lo

Travel History Alerts Enable

1 Cycle Count Hi2 Tvl Accum Hi

Cycle Counter

1 Cycle Count2 Edit Cycle Counts3 Cycle Count High Alert Point

Travel Accumulator

1 Travel Accumulator2 Edit Travel Accumulator3 Travel Accumulator Alert Point

2-3-1-2

2-3-1-1

2-3-2

2-3-2-1

2-3-3

2-3-3-1

2-3-3-6

2-3-3-7

2-3-4

2-3-4-1

2-3-4-4

2-3-4-5

2

1

Travel History Alerts NE107

1 Cycle Count High2 Travel Accumulator High

2-3-4-2

Travel Alerts NE107

1 Travel Deviation2 Travel Hi Hi3 Travel Lo Lo4 Travel Hi5 Travel Lo6 Travel Limit/Cutoff Hi7 Travel Limit/Cutoff Lo

2-3-3-8

Pressure Alerts NE107

1 Supply Pressure Hi2 Supply Pressure Lo3 Pressure Deviation4 Port A Overpressurized

Electronic Alerts NE107

1 Drive Current Failure2 Drive Signal3 Critical NVM Failure4 Non-Critical NVM Failure5 Flash Integrity Failure6 Reference Voltage Failure7 Shutdown Activated8 Output Circuit Error

2-3-1-3

2-3-2-2

2

2-3-3-2

4

4

4

4

44 3

3

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Alert Setup

1 Electronics2 Pressure3 Travel4 Travel History5 Partial Stroke6 Sensors7 Alert Record/Status

Sensor Alerts Shutdown

1 Travel Sensor Failure Shutdown2 Pressure Sensor Failure Shutdown3 Temp Sensor Failure Shutdown4 Minor Loop Sensor Failure Shutdown

Alert Record/Status

1 Alert Record/Status Alerts Enable2 Alert Record/Status Alerts NE1073 View Alert Records4 Clear Records5 Instrument Alert Record6 Edit Instrument Time

Sensors

1 Sensor Alerts Enable2 Sensor Alerts NE1073 Sensor Alerts Shutdown4 Change Travel/Pressure Select5 Travel/Pressure Select6 Fallback Recovery

Sensor Alerts Enable

1 Pressure Fallback Active

Change Travel/Pressure Select

1 Travel Control2 Pressure Control3 Fallback-Sensor Failure4 Fallback-Sensor/Tvl Deviation

2-3-6 (HC, AD, PD)

2-3-7 (ODV)

2-3-5 (HC, AD, PD)

2-3-5-1 (HC, AD, PD)

2-3-5-3 (HC, AD, PD)

2-3-5-2 (HC, AD, PD)

2

2

2

2

1

2-3-6 (ODV)

2-3-6-3 (ODV)

2-3-6-1 (ODV)

2-3-6-2 (ODV)

Partial Stroke

1 Partial Stroke Alerts Enable2 Partial Stroke Alerts NE1073 Partial Stroke Alerts Shutdown4 PST Prohibited Alerts Enable

Partial Stroke Alerts Enable

1 PST Abnormal2 PST Pass3 PST Prohibited

Partial Stroke Alerts Shutdown

1 Program Flow Failure Shutdown

PST Prohibited Alerts Enable

1 PST Prohibited Electronic Alerts2 Travel Sensor Failure3 Pressure Sensor Failure4 Temp Sensor Failure5 Pressure Fallback Active6 Supply Pressure Lo7 Travel Deviation

PST Prohibited Electronic Alerts

1 Critical NVM Failure2 Drive Current Failure3 Reference Voltage Failure4 Minor Loop Sensor Failure5 Flash Integrity Failure

Partial Stroke Alerts NE107

1 PST Abnormal2 PST Pass3 PST Prohibited4 Program Flow Failure

2-3-5 (ODV)

2-3-5-1 (ODV)

3

Sensor Alerts NE107

1 Travel Sensor Failure2 Pressure Sensor Failure3 Temp Sensor Failure4 Minor Loop Sensor Failure5 Pressure Fallback Active

2-3-5-4 (HC, AD, PD)2-3-6-4 (ODV)

2-3-5-4 (ODV)

2-3-5-2 (ODV)

2-3-5-3 (ODV)

2-3-5-4-1 (ODV)

Alert Record/Status Alerts Enable

1 Alert Record Not Empty2 Alert Record Full3 Instrument Time is Approximate4 Calibration in Progress5 Autocal in Progress6 Diagnostic in Progress7 Diagnostic Data Avail8 Integrator Sat Hi9 Integrator Sat Lo

3

2-3-6 -1 (HC, AD, PD)

2-3-7-1 (ODV)

Alert Record/Status Alerts NE107

1 Alert Record Not Empty2 Alert Record Full3 Instrument Time is Approximate4 Calibration in Progress5 Autocal in Progress6 Diagnostic in Progress7 Diagnostic Data Avail8 Integrator Sat Hi9 Integrator Sat Lo

2-3-6-2 (HC, AD, PD)

2-3-7-2 (ODV)

2

2

3

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Calibration

1 Travel Calibration2 Relay Adjust3 Sensor Calibration4 PST Calibration

Travel Calibration

1 Auto Calibration2 Last AutoCal Status3 Manual Calibration4 Calibration Record

Sensor Calibration

1 Pressures Sensors2 Analog Input

2-4-1

2-4-3

HART 5

HA

RT

5

HART 7Travel Calibration

1 Auto Calibration2 Last AutoCal Status3 Manual Calibration4 Calibration Type5 Calibration Time6 Calibrator

2-4-1HART 7

�L B- 11. �{ e� (3)

4�HART 5E �* NT( 'HART 7R ~�'vD.


2�� -a � (b ·�� AD, PD, ODVE ��- q rsD.

3�PST {� �� i �� ST ODVE ��- q rsD.

+�:

5�HART 7E× �D.

Service Tools

1 Device Status2 Alert Record3 Diagnostics4 Variables5 Maintenance6 Simulate

Diagnostics

1 Stroke Valve2 Partial Stroke Test

3-4

Variables

1 Travel/Pressure2 Control Mode3 Analog Input4 Temperature5 Travel Counts6 Characterization7 Travel History8 Run Time Extremes

Control Mode

1 Control Mode2 Change Control Mode3 Restart Control Mode

3-3Travel/Pressure

1 Setpoint2 Travel3 Drive Signal4 Pressure Variables5 Change Travel/Pressure Select6 Travel/Pressure Select7 Fallback Recovery

Characterization

1 Input Characterization2 Custom Characterization

Travel History

1 Cycle Count2 Travel Accumulator

Run Time Extremes

1 Maximum Recorded Temperature2 Minimum Recorded Temperature3 Days Powered Up4 Number of Power Ups

Maintenance

1 Stabilize/Optimize2 Restart Processor3 Reset PST Abnormal Alert4 Change to HART 5

3-4-8

3-4-7

3-5

Alert Record

1 View Alert Records2 Clear Records

3-2

1

2

2

4

3-4-1

3-4-2

3-4-6

3

Pressure Variables

1 Supply Pressure2 Pressure A3 Pressure B4 Pressure A-B

3-4-1-4

5

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Emerson Automation Solutions

Marshalltown, Iowa 50158 USA Sorocaba, 18087 Brazil Cernay, 68700 France Dubai, United Arab Emirates Singapore 128461 Singapore

www.Fisher.com

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�2012, 2019 Fisher Controls International LLC. �� >? �).

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Fisher, FIELDVUE, ValveLink, PROVOX, Rosemount, Tri-Loop, DeltaV, RS3 B THUM� Emerson Electric Co.� Emerson Automation Solutions�*J� N� ��@ Q)� W+,&'. Emerson Automation Solutions, Emerson B Emerson 4� Emersion Electric Co.� Y- B ��Y-,&'. HART� FieldComm Group� [\ Y-,&'. �. �� -�� 7 Q)/� /],&'.

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