YOKOGAWA WT1800 User Manual page 127

Precision power analyzer

Hide thumbs Also See for WT1800:

User manual (167 pages)

User manual (167 pages)

User manual (149 pages)

Table Of Contents

100

101

102

103

104

105

106

107

108

109

110

111

112

113

114

115

116

117

118

119

120

121

122

123

124

125

126

127

128

129

130

131

132

133

134

135

136

137

138

139

140

141

142

143

144

145

146

147

148

149

150

151

152

153

154

155

156

157

158

159

160

161

Table of Contents

Effects of Stray Capacitance

The effects of stray capacitance on measurement accuracy can be minimized by connecting the

WT1800 current input terminal to the side of the power supply (SOURCE) that is closest to its earth

potential.

The internal structure of the WT1800 is explained below.

The voltage and current measurement circuits are each enclosed in shielded cases. These shielded

cases are contained within an outer case. The shielded case of the voltage measurement circuit is

connected to the positive and negative voltage input terminals, and the shielded case of the current

measurement circuit is connected to the positive and negative current input terminals.

Because the outer case is insulated from the shielded cases, there is stray capacitance, which is

expressed as Cs. Cs is approximately 40 pF. The current generated by stray capacitance Cs causes

errors.

As an example, we will consider the case when the outer case and one side of the power supply are

grounded.

In this case, there are two conceivable current flows, i

current that flows through the stray capacitance. i

through the load, and returns to the power supply (shown with a dotted line). i

current measurement circuit, the stray capacitance, and the earth ground of the outer case, and then

returns to the power supply (shown with a dot-dash line).

Therefore, the current measurement circuit ends up measuring the sum of i

objective is just to measure i

s (common mode voltage), i

of i

s is ahead of the voltage by 90°, the effect of i

power factor gets smaller.

s = V

s × 2πf ×

SOURCE

Because the WT1800 measures high frequencies, the effects of i

If you connect the WT1800 current input terminal to the side of the power supply (SOURCE) that is

close to its earth potential, the WT1800 current measurement circuit positive and negative terminals

are close to the earth potential, so V

reduces the effect on measurement accuracy.

IM WT1801-03EN

. Only i

s reduces measurement accuracy. If the voltage applied to Cs is

s can be found using the equation shown below. Because the phase

s becomes approximately zero and very little i

Appendix 3 How to Make Accurate Measurements

Shielded case of the voltage measurement circuit

Outer case

Grounding

Shielded case of the current measurement circuit

and i

s. i

is the load current, and i

flows through the current measurement circuit, then

s on the measurement accuracy increases as the

s cannot be ignored.

s is the

s flows through the

and i

s, even if the

LOAD

s flows. This

App-21

App

Index

Table of Contents

YOKOGAWA WT1800 User Manual page 127

Related Manuals for YOKOGAWA WT1800

Related Products for YOKOGAWA WT1800

Table of Contents