Reichert Capture Integration Guide

 

When installing Reichert Capture and configuring the machine, make sure to

UNCHECK “Unique XML File Name”.

Crystal / Reichert Bi-directional Communication Setup

For instructions on sending Autorefractor and Lensometer data from Crystal to Reichert, please click HERE

CrystalPM Integration Setup

 

          Add the Machine:

1.      In Crystal, go to the Records tab

2.      In Records, navigate to EHR Settings à Import Machines à Select an open Machine Slot

3.      A window will open with a list a of machines, click on “Browse for available machines” at the bottom

4.      Choose the machine labeled “Reichert”

5.      Browse to the xml output location of the Reichert machine (C:\Reichert Capture\Output\Device 1\ReichertCaptureData.xml)

6.      Click open, then leave the Records tab in Crystal and then come back to it (Click on Tasks tab then click back onto records tab.)

 

Create the button in records:

1.      In Records, navigate to EHR Settings à Edit Medical Record Templates

2.      At the bottom of the Edit Fields Window click on “Add New Field”

3.      Make the field type to be a button

4.      Assign the fields in your template to the corresponding fields from the XML file below

5.      Add field to template and Save Changes

 

Reichert Capture XML Fields

 

1.  SchemaVersion 

2.  Header -> CompanyName 

3.  Header -> Model 

4.  Header -> ExamDate 

5.  Header -> ExamTime 

6.  Header -> PatientName 

7.  Header -> PatientID 

Tonometry Data (NCT)

8.  Tono Data -> OD -> IOP

9.  Tono Data -> OD -> IOPg

10.  Tono Data -> OD -> IOPcc

11.  Tono Data -> OD -> WfScore

12.  Tono Data -> OD -> CornealHyst

13.  Tono Data -> OD -> CRF

14.  Tono Data -> OS -> IOP 

15.  Tono Data -> OS -> IOPg

16.  Tono Data -> OS -> IOPcc

17.  Tono Data -> OS -> WfScore

18.  Tono Data -> OS -> CornealHyst

19.  Tono Data -> OS -> CRF

Lensometer Data

20.  LM Data -> Lens Type  

21.  LM Data -> PD

22.  LM Data -> OD -> Spectacle Data -> Sphere

23.  LM Data -> OD -> Spectacle Data -> Cylinder

24.  LM Data -> OD -> Spectacle Data -> Axis

25.  LM Data -> OD -> ContactLens Data -> Sphere

26.  LM Data -> OD -> ContactLens Data -> Cylinder

27.  LM Data -> OD -> ContactLens Data -> Axis

28.  LM Data -> OD -> Add Diop1

29.  LM Data -> OD -> Add Diop2 

30.  LM Data -> OD -> Sph Equivalent 

31.  LM Data -> OD -> UV Transmit 

32.  LM Data -> OD -> Prism Data -> Vert Prism

33.  LM Data -> OD -> Prism Data -> Vert PrismBase

34.  LM Data -> OD -> Prism Data -> Horz Prism

35.  LM Data -> OD -> Prism Data -> Horz PrismBase 

36.  LM Data -> OS -> Spectacle Data -> Sphere 

37.  LM Data -> OS -> Spectacle Data -> Cylinder 

38.  LM Data -> OS -> Spectacle Data -> Axis 

39.  LM Data -> OS -> ContactLens Data -> Sphere 

40.  LM Data -> OS -> ContactLens Data -> Cylinder 

41.  LM Data -> OS -> ContactLens Data -> Axis 

42.  LM Data -> OS -> Add Diop1 

43.  LM Data -> OS -> Add Diop2 

44.  LM Data -> OS -> Sph Equivalent

45.  LM Data -> OS -> UV Transmit 

46.  LM Data -> OS -> Prism Data -> Vert Prism 

47.  LM Data -> OS -> Prism Data -> Vert PrismBase 

48.  LM Data -> OS -> Prism Data -> Horz Prism 

49.  LM Data -> OS -> Prism Data -> Horz PrismBase 

Autorefraction Data

50.  AR Data -> Vertex Dist mm

51.  AR Data -> PD 

52.  AR Data -> OD -> Sphere 

53.  AR Data -> OD -> Cylinder 

54.  AR Data -> OD -> Axis 

55.  AR Data -> OS -> Sphere 

56.  AR Data -> OS -> Cylinder 

57.  AR Data -> OS -> Axis 

Keratometry Data

58.  KM Data -> OD -> R1 mm 

59.  KM Data -> OD -> R2 mm 

60.  KM Data -> OD -> R1 Diopter 

61.  KM Data -> OD -> R2 Diopter 

62.  KM Data -> OD -> Axis Flat 

63.  KM Data -> OD -> Axis Steep 

64.  KM Data -> OD -> Cylinder 

65.  KM Data -> OS -> R1 mm 

66.  KM Data -> OS -> R2 mm 

67.  KM Data -> OS -> R1 Diopter 

68.  KM Data -> OS -> R2 Diopter 

69.  KM Data -> OS -> Axis Flat 

70.  KM Data -> OS -> Axis Steep 

71.  KM Data -> OS -> Cylinder 

72.  KM Peripheral Data -> OD -> R Vertical mm 

73.  KM Peripheral Data -> OD -> R Horizontal mm 

74.  KM Peripheral Data -> OD -> R Superior mm 

75.  KM Peripheral Data -> OD -> R Inferior mm 

76.  KM Peripheral Data -> OD -> R Temporal mm 

77.  KM Peripheral Data -> OD -> R Nasal mm 

78.  KM Peripheral Data -> OD -> Eccentricity Vert 

79.  KM Peripheral Data -> OD -> Eccentricity Horz 

80.  KM Peripheral Data -> OS -> R Vertical mm 

81.  KM Peripheral Data -> OS -> R Horizontal mm 

82.  KM Peripheral Data -> OS -> R Superior mm 

83.  KM Peripheral Data -> OS -> R Inferior mm 

84.  KM Peripheral Data -> OS -> R Temporal mm 

85.  KM Peripheral Data -> OS -> R Nasal mm 

86.  KM Peripheral Data -> OS -> Eccentricity Vert 

87.  KM Peripheral Data -> OS -> Eccentricity Horz 

Phoropter Data

88.  Phoropter Data -> OD -> Correction Data -> Sphere

89.  Phoropter Data -> OD -> Correction Data -> Cylinder

90.  Phoropter Data -> OD -> Correction Data -> Axis

91.  Phoropter Data -> OD -> Add Diop

92.  Phoropter Data -> OD -> Prism Data -> Vert Prism

93.  Phoropter Data -> OD -> Prism Data -> Vert PrismBase

94.  Phoropter Data -> OD -> Prism Data -> Horz Prism

95.  Phoropter Data -> OD -> Prism Data -> Horz PrismBase

96.  Phoropter Data -> OD -> PD

97.  Phoropter Data -> OD -> Accomm Range

98.  Phoropter Data -> OD -> VisAcuity Without Corr

99.  Phoropter Data -> OD -> VisAcuity With Corr

100.  Phoropter Data -> OD -> VisAcuityNear Without Corr

101.  Phoropter Data -> OD -> VisAcuityNear With Corr

102.  Phoropter Data -> OS -> Correction Data -> Sphere

103.  Phoropter Data -> OS -> Correction Data -> Cylinder

104.  Phoropter Data -> OS -> Correction Data -> Axis

105.  Phoropter Data -> OS -> Add Diop

106.  Phoropter Data -> OS -> Prism Data -> Vert Prism

107.  Phoropter Data -> OS -> Prism Data -> Vert PrismBase

108.  Phoropter Data -> OS -> Prism Data -> Horz Prism

109.  Phoropter Data -> OS -> Prism Data -> Horz PrismBase

110.  Phoropter Data -> OS -> PD

111.  Phoropter Data -> OS -> Accomm Range

112.  Phoropter Data -> OS -> VisAcuity Without Corr

113.  Phoropter Data -> OS -> VisAcuity With Corr

114.  Phoropter Data -> OS -> VisAcuityNear Without Corr

115.  Phoropter Data -> OS -> VisAcuityNear With Corr

116.  Phoropter Data -> Vertex Dist mm

117.  Phoropter Data -> PD

118.  Phoropter Data -> Blur Point

119.  Phoropter Data -> VisAcuity Without Corr

120.  Phoropter Data -> VisAcuity With Corr

121.  Phoropter Data -> VisAcuityNear Without Corr

122.  Phoropter Data -> VisAcuityNear With Corr

123.  Phoropter Data -> Subjective -> OD -> Correction Data -> Sphere

124.  Phoropter Data -> Subjective -> OD -> Correction Data -> Cylinder

125.  Phoropter Data -> Subjective -> OD -> Correction Data -> Axis

126.  Phoropter Data -> Subjective -> OD -> Add Diop

127.  Phoropter Data -> Subjective -> OD -> Prism Data -> Vert Prism

128.  Phoropter Data -> Subjective -> OD -> Prism Data -> Vert PrismBase

129.  Phoropter Data -> Subjective -> OD -> Prism Data -> Horz Prism

130.  Phoropter Data -> Subjective -> OD -> Prism Data -> Horz PrismBase

131.  Phoropter Data -> Subjective -> OD -> PD

132.  Phoropter Data -> Subjective -> OD -> Accomm Range

133.  Phoropter Data -> Subjective -> OD -> VisAcuity Without Corr

134.  Phoropter Data -> Subjective -> OD -> VisAcuity With Corr

135.  Phoropter Data -> Subjective -> OD -> VisAcuityNear Without Corr

136.  Phoropter Data -> Subjective -> OD -> VisAcuityNear With Corr

137.  Phoropter Data -> Subjective -> OS -> Correction Data -> Sphere

138.  Phoropter Data -> Subjective -> OS -> Correction Data -> Cylinder

139.  Phoropter Data -> Subjective -> OS -> Correction Data -> Axis

140.  Phoropter Data -> Subjective -> OS -> Add Diop

141.  Phoropter Data -> Subjective -> OS -> Prism Data -> Vert Prism

142.  Phoropter Data -> Subjective -> OS -> Prism Data -> Vert PrismBase

143.  Phoropter Data -> Subjective -> OS -> Prism Data -> Horz Prism

144.  Phoropter Data -> Subjective -> OS -> Prism Data -> Horz PrismBase

145.  Phoropter Data -> Subjective -> OS -> PD

146.  Phoropter Data -> Subjective -> OS -> Accomm Range

147.  Phoropter Data -> Subjective -> OS -> VisAcuity Without Corr

148.  Phoropter Data -> Subjective -> OS -> VisAcuity With Corr

149.  Phoropter Data -> Subjective -> OS -> VisAcuityNear Without Corr

150.  Phoropter Data -> Subjective -> OS -> VisAcuityNear With Corr

151.  Phoropter Data -> Subjective -> VisAcuity Without Corr

152.  Phoropter Data -> Subjective -> VisAcuity With Corr

153.  Phoropter Data -> Subjective -> VisAcuityNear Without Corr

154.  Phoropter Data -> Subjective -> VisAcuityNear With Corr

155.  Phoropter Data -> Binocular Tests -> NegRelAccomm

156.  Phoropter Data -> Binocular Tests -> PosRelAccomm

157.  Phoropter Data -> Binocular Tests -> Far Tests -> Phoria -> Vert Prism

158.  Phoropter Data -> Binocular Tests -> Far Tests -> Phoria -> Vert PrismBase

159.  Phoropter Data -> Binocular Tests -> Far Tests -> Phoria -> Horz Prism

160.  Phoropter Data -> Binocular Tests -> Far Tests -> Phoria -> Horz PrismBase

161.  Phoropter Data -> Binocular Tests -> Far Tests -> Divergence -> Blur

162.  Phoropter Data -> Binocular Tests -> Far Tests -> Divergence -> Break

163.  Phoropter Data -> Binocular Tests -> Far Tests -> Divergence -> Recovery

164.  Phoropter Data -> Binocular Tests -> Far Tests -> Convergence -> Blur

165.  Phoropter Data -> Binocular Tests -> Far Tests -> Convergence -> Break

166.  Phoropter Data -> Binocular Tests -> Far Tests -> Convergence -> Recovery

167.  Phoropter Data -> Binocular Tests -> Far Tests -> Infravergence Right -> Break

168.  Phoropter Data -> Binocular Tests -> Far Tests -> Infravergence Right -> Recovery

169.  Phoropter Data -> Binocular Tests -> Far Tests -> Infravergence Left -> Break

170.  Phoropter Data -> Binocular Tests -> Far Tests -> Infravergence Left -> Recovery

171.  Phoropter Data -> Binocular Tests -> Far Tests -> Supravergence Right -> Break

172.  Phoropter Data -> Binocular Tests -> Far Tests -> Supravergence Right -> Recovery

173.  Phoropter Data -> Binocular Tests -> Far Tests -> Supravergence Left -> Break

174.  Phoropter Data -> Binocular Tests -> Far Tests -> Supravergence Left -> Recovery

175.  Phoropter Data -> Binocular Tests -> Near Tests -> Phoria -> Vert Prism

176.  Phoropter Data -> Binocular Tests -> Near Tests -> Phoria -> Vert PrismBase

177.  Phoropter Data -> Binocular Tests -> Near Tests -> Phoria -> Horz Prism

178.  Phoropter Data -> Binocular Tests -> Near Tests -> Phoria -> Horz PrismBase

179.  Phoropter Data -> Binocular Tests -> Near Tests -> Divergence -> Blur

180.  Phoropter Data -> Binocular Tests -> Near Tests -> Divergence -> Break

181.  Phoropter Data -> Binocular Tests -> Near Tests -> Divergence -> Recovery

182.  Phoropter Data -> Binocular Tests -> Near Tests -> Convergence -> Blur

183.  Phoropter Data -> Binocular Tests -> Near Tests -> Convergence -> Break

184.  Phoropter Data -> Binocular Tests -> Near Tests -> Convergence -> Recovery

185.  Phoropter Data -> Binocular Tests -> Near Tests -> Infravergence Right -> Break

186.  Phoropter Data -> Binocular Tests -> Near Tests -> Infravergence Right -> Recovery

187.  Phoropter Data -> Binocular Tests -> Near Tests -> Infravergence Left -> Break

188.  Phoropter Data -> Binocular Tests -> Near Tests -> Infravergence Left -> Recovery

189.  Phoropter Data -> Binocular Tests -> Near Tests -> Supravergence Right -> Break

190.  Phoropter Data -> Binocular Tests -> Near Tests -> Supravergence Right -> Recovery

191.  Phoropter Data -> Binocular Tests -> Near Tests -> Supravergence Left -> Break

192.  Phoropter Data -> Binocular Tests -> Near Tests -> Supravergence Left -> Recovery

193.  Phoropter Data -> Binocular Tests -> FCC

 

 

Instrument Settings

Some of the Reichert instruments require the data port set to specific settings to enable data

transfer. The following settings are needed to transfer the data:

Note: Ensure that the settings in the unit’s SETUP menu is set the same as the software.

Note: A typical port for the RS232C is COM1, a typical port for USB is COM4.

AL200

No special settings are required with this instrument.

AL500

SETUP Mode \ RS232 \ Data Output - Requires set to Manual.

AL700

Note: Auto COM should be set to OFF or continuous data will be sent to the selected port.

USB - When connecting a USB cable to the unit, the USB option is automatically set.

RS232 - SETUP Mode \ Data Output \ Output Device - Requires RS232

AT550

Ensure that the settings in the SETUP menu in the unit are set the same as in the software.

AT555

Ensure that the settings in the SETUP menu in the unit are set the same as in the software.

iPac®

Refer to the User Guide for directions regarding Bluetooth connectivity.

PT100

SETUP \ Communications - Requires set to IR COMM and a serial to ACT IR220L+

interface device (or equivalent).

Reichert® 7

Ensure that the settings in the SETUP menu in the unit are set the same as in the software.

Reichert® 7CR

Ensure that the settings in the SETUP menu in the unit are set the same as in the software.

RK600

Note: The printer must be set to ON and have paper installed for the serial data to be sent

to the ReichertCapture software.

Ensure that the settings in the SETUP menu in the unit are set the same as in the software.

RK700

Note: If the RK700 is set to output using the RS232C, it will automatically switch to USB

when the USB cable is plugged into the unit.

Ensure that the settings in the SETUP menu in the unit are set the same as in the software.

Auto Phoroptor RS®

Pressing the COM button on the console, initiates the exporting of the data. Ensure that

the instrument settings in the Port Configuration dialog box (e.g., Settings/EDP Port) are

the same as the settings in the ReichertCapture software. Select the EDP-AutoPhor

Device /Protocol.

Visutron 900+

Pressing the COM button on the console, initiates the exporting of the data. Ensure that

the instrument settings in the Port Configuration dailog box (e.g., Settings/EDP Port) are

the same as the settings in the ReichertCapture software. Select the EDP-V900+ Device /Protocol.