1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
|
<?xml version="1.0" encoding="UTF-8"?><module fritzingVersion="0.7.2b" moduleId="lhi958">
<version>1</version>
<date>2014-01-13</date>
<label>Lhi</label>
<author>www.fritzing.org</author>
<description>The LHi 954 and LHi 958 pyroelectric infrared-detectors have been a world
standard for more than 10 years. They both are dual element types with FET in
source follower connection. The LHi 954 detector is available in TO-39 housing
with standard infrared filter whereas the LHi 958 is the same detector in a TO-5
housing with standard infrared filter.
It offers a highly stable responsivity with excellent common mode performance
(match) and low noise .</description>
<title>LHi958</title>
<tags>
<tag>TO-39</tag>
<tag>LHi958</tag>
<tag>Dual Element Detector</tag>
</tags>
<properties>
<property name="package">to-39</property>
<property name="family">sensors</property>
<property name="features"></property>
<property name="variant">pyroelectric infrared-detectors</property>
</properties>
<views>
<breadboardView>
<layers image="breadboard/lhi958-pir_breadboard.svg">
<layer layerId="breadboard"/>
</layers>
</breadboardView>
<schematicView>
<layers image="schematic/lhi958_schematic.svg">
<layer layerId="schematic"/>
</layers>
</schematicView>
<pcbView>
<layers image="pcb/sparkfun-sensors_to-39_pcb.svg">
<layer layerId="copper1"/>
<layer layerId="silkscreen"/>
<layer layerId="copper0"/>
</layers>
</pcbView>
<iconView>
<layers image="breadboard/lhi958-pir_breadboard.svg">
<layer layerId="icon"/>
</layers>
</iconView>
</views>
<connectors>
<connector id="connector1" name="S" type="male">
<description>S</description>
<views>
<breadboardView>
<p layer="breadboard" svgId="connector1pin"/>
</breadboardView>
<schematicView>
<p layer="schematic" svgId="connector1pin" terminalId="connector1terminal"/>
</schematicView>
<pcbView>
<p layer="copper0" svgId="connector1pad"/>
<p layer="copper1" svgId="connector1pad"/>
</pcbView>
</views>
</connector>
<connector id="connector0" name="GND" type="male">
<description>GND</description>
<views>
<breadboardView>
<p layer="breadboard" svgId="connector0pin"/>
</breadboardView>
<schematicView>
<p layer="schematic" svgId="connector0pin" terminalId="connector0terminal"/>
</schematicView>
<pcbView>
<p layer="copper0" svgId="connector0pad"/>
<p layer="copper1" svgId="connector0pad"/>
</pcbView>
</views>
</connector>
<connector id="connector2" name="D" type="male">
<description>D</description>
<views>
<breadboardView>
<p layer="breadboard" svgId="connector2pin"/>
</breadboardView>
<schematicView>
<p layer="schematic" svgId="connector2pin" terminalId="connector2terminal"/>
</schematicView>
<pcbView>
<p layer="copper0" svgId="connector2pad"/>
<p layer="copper1" svgId="connector2pad"/>
</pcbView>
</views>
</connector>
<connector id="connector3" name="n.a." type="male">
<description>n.a.</description>
<views>
<breadboardView>
<p layer="breadboard" svgId="connector3pin"/>
</breadboardView>
<schematicView>
<p layer="schematic" svgId="connector3pin" terminalId="connector3terminal"/>
</schematicView>
<pcbView>
<p layer="copper0" svgId="connector3pad"/>
<p layer="copper1" svgId="connector3pad"/>
</pcbView>
</views>
</connector>
</connectors>
<buses>
</buses>
</module>
|
