DIMENSIONS
in Inches (Millimeters)
9000 Series High Performance SIP Reed Relays
e SIP relay is the industry standard when high reliability and consistent perfor-
mance are desired in a compact package. e 9001 and 9002 are high performance
relays ideally suited for Automatic Test Equipment, Instrumentation, RF and Tele-
communications applications. e specication tables allow you to select the appropri-
ate relay for your application.
9000 Series Features
u
High Insulation Resistance - 10
12
Ω minimum (10
13
Ω typical)
u
High reliability, hermetically sealed contacts for long life
(tested up to 1 Billion Operations)
u
High dielectric strength available, consult factory
u
High speed switching compared to electromechanical relays
u
Molded thermoset body on integral lead frame design
u
Coaxial Shield for 50Ω impedance and switching of fast rise time
digital pulses - 9002 only
u
Optional Coil Suppression Diode - protects coil drive circuits
u
UL File #E67117, CSA File #028537 - Contact factory for details
u
RoHS compliant
Ordering Information
Part Number
Model Number
9001 9002
Coil Voltage
05=5 volts
12=12 volts Magnetic Shield Option
0 = No Shield
1 = Shield
General Options
0 = No Diode
1 = Diode2
90XX-XX-XX
.300 Max (7.6)
.320 Max. (8.1) w/Shell
.200 Max (5.08)
.222 Max. (5.64) w/Shell
.760 Max (19.3)
.780 Max.
(19.8) w/Shell
.010
(0.25)
.020
(0.5)
.133
(3.4) Max.
.200 (Typ.)
(5.08)
.020 REF.
(0.51)
.300 Max (7.6)
.320 Max. (8.1) w/Shell
.200 Max (5.08)
.222 Max. (5.64) w/Shell
.760 Max (19.3)
.780 Max.
(19.8) w/Shell
.010
(0.25)
.020
(0.5) .133
(3.4) Max.
.200 (Typ.)
(5.08)
.100 (Typ.)
(2.54)
Model 9002Model 9001
9000 SERIES/MOLDED SIP REED RELAYS
30o
.300 Max (7.6)
.320 Max. (8.1) w/Shell
.200 Max (5.08)
.222 Max. (5.64) w/Shell
.760 Max (19.3)
.780 Max.
(19.8) w/Shell
.010
(0.25)
.133
(3.4) Max.
.020
(0.5)
.020 REF.
(0.51)
.200
(Typ.)
(5.08)
Alternate Package
uFor RF Graph Performance, see “RF Graphs” section
of the Reed Relay Technical & Application Information
NOTE
tel: (401) 943.2686 | fax: (401) 942.0920
07082013
Notes:
1 Consult factory for life expectancy at other switching loads. Resistance >0.5Ω
denes end of life or failure to open.
2 Optional diode is connected to pin #2(+) and pin #3(-). Correct coil polarity must be observed.
Environmental Ratings:
Storage Temp: -35°C to +100°C; Operating Temp: -20°C to +85°C; Solder Temp: 270°C max; 10 sec. max
All electrical parameters measured at 25°C unless otherwise specied.
Vibration: 20 G’s to 2000 Hz; Shock: 50 G’s
COTO TECHNOLOGY, INC.For most recent data visit www.cotorelay.com
MODEL NUMBER 9001290022
Parameters Test Conditions Units 4 Pin SIP 6 Pin SIP
COIL SPECS.
Nom. Coil Voltage VDC 512 512
Max. Coil Voltage VDC 6.5 15.0 6.5 15.0
Coil Resistance +/- 10%, 25° C Ω 500 1000 350 750
Operate Voltage Must Operate by VDC - Max. 3.75 9.0 3.75 9.0
Release Voltage Must Release by VDC - Min. 0.4 1.0 0.4 1.0
CONTACT RATINGS
Switching Voltage Max DC/Peak AC Resist. Volts 200 200
Switching Current Max DC/Peak AC Resist. Amps 0.5 0.5
Carry Current Max DC/Peak AC Resist. Amps 1.5 1.5
Contact Rating Max DC/Peak AC Resist. Watts 10 10
Life Expectancy-Typical1Signal Level 1.0V, 10mA x 106 Ops. 1000 1000
Static Contact
Resistance (max. init.) 50mV, 10mA Ω0.150 0.150
Dynamic Contact
Resistance (max. init.)
0.5V, 50mA
at 100 Hz, 1.5 msec Ω0.200 0.200
RELAY SPECIFICATIONS
Insulation Resistance
(minimum)
Between all Isolated Pins
at 100V, 25°C, 40% RH Ω1012 1012
Capacitance - Typical
Across Open Contacts
No Shield
Shield Floating
Shield Guarding
pF
pF
pF
0.7
-
-
-
0.8
0.1
Open Contact to Coil
No Shield
Shield Floating
Shield Guarding
pF
pF
pF
1.4
-
-
-
1.4
0.5
Contact to Shield Contacts Open, Shield Floating pF -1.4
Dielectric Strength
(minimum)
Between Contacts
Contacts to Coil
Contacts/Shield to Coil
VDC/peak AC
VDC/peak AC
VDC/peak AC
300
-
1500
300
1500
1500
Operate Time - including
bounce - Typical
At Nominal Coil Voltage,
30 Hz Square Wave msec. 0.35 0.35
Release Time - Typical msec. 0.1 0.1
Top View:
Dot stamped on relay refers to pin #1
Grid = .1”x.1” (2.54mm x 2.54mm)
1
2
3
4
1
2
3
4
5
6
07082013
