Download 712-26

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Transcript
.
WW 00Y.CO .TW
W.1 Y.COM W
WW 00Y.CO .TW
W
W
M
.1
M.T
.100
W.1 Y.COM W
WW 00Y.CO .TW
W
W
WW 00Y.CO .TW
W
.T
00
W.1 Y.COM W
M
.1
W.1 Y.COM W
O
W
W
W
C
.
W
.T
W
00
W
WW .100Y
M.T
.100
W.1 Y.COM W
M.T
O
W
O
W
W
C
.
W
W
WW .100Y
WW .100Y.C M.TW
M.T
.100
M.T
O
W
O
W
C
.
SERIES
O
W
W
W
.TW
00Y
WW .100Y.C M.TW
1
WW .100Y.C M.TW
M
.
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
0
W
COMMERCIAL/INDUSTRIAL
.1
W.1 Y.COM W
M.T
.10
OM
W
O
W
W
C
.
W
C
W
0
Y
W
.T
W
W
WW .100Y.
TO-5
M.T RELAYS WW.10
.100
OM
M.T
O
W
C
.
O
W
C
W
Y
W
W
WW .100Y.
.T
WW .100Y.C M.TW
M.T
.100
M
O
DPDT
W
O
W
C
.
O
W
WW .100Y
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
SERIES
O
W
W
W
C
.
W
RELAY
TYPE
W
.T
WW .100YDESIGNATION
M.T
.100
.TW
100
M
.
O
W
M
O
W
C
W
.CO .TW
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y712
M
O
W
M
DPDT basic relayW
O
O
W
WW .100Y.C M.TW
W
Y.C
WW .100Y.C M.TW
WW .100712D
T
.
DPDT relay with internal
coil transient suppression WW
.CO .TW
OM
W
CO
.for
Y
WW diode
C
W
.
0
Y
W
W
W
0
0
Y
W
T
.
0
W
.T
00
driver
W.1 diodeY.COM W
OM and coil transient suppression
W.1transistor
OM DPDT relay with internal
W
W.1 712TN
C
.
W
C
W
.
Y
W
W
W
.T
W
M.T
.100
.TW
100
00Y
M
.
O
1
W
M
.
O
W
C
.
O
W
WW .100Y
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
O
W
WW .100Y.C M.TW
INTERNAL CONSTRUCTION
WW .100Y.C M.TW
WW .100Y.C M.TW DESCRIPTION
O
WW 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
TO-5 relay, originally
and developed by Teledyne, has
OM
W.1 conceived
COof the TW
.one
WW become
W.1 Y.COM WThe
C
.
Y
W
W
0
Y
W
W
0
industry standards
Designed
expressly
0 switching
W for low
.T dry circuit to 1 ampere.
W
M.
.1
Mfrom
.10level
O
W
M.T for high density PC
.100
O
W
C
.
O
W
W
C
power dissipation
. its small.Tsize
W and low coilW
00Ymake theM.TW
WWBoard.1mounting,
00Y ultraminiature
WW .100Y.C M.TW
M
TO-5 relay one of the most
versatile
relays available. W.1
O
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
O
W
The following uniqueW
features
techniques
excellent
W
Y.C
W
0
Y.C and manufacturing
WW provide
0
0
W construction
T
.
1
0
WW .100Y.C M.resistance
TW to environmental
M.T
.
1
M
.
O
extremes
and
overall
high
reliability:
W
O
W
C
.
O
W
WW .100Y
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
O • All welded construction.
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M
.TW uni-frame design
•
Unique
providing
high
magnetic
efficiency
and
mechanical
W
O
WWrigidity.00Y.CO .T
W
CO
.shock
Wresistance
C
W
.
Y
W
W
W
0
Y
W
T
.
•
High
force/mass
ratios
for
to
and
vibration.
W
M
.1
.T
00
.10
OMassurance of internal cleanliness.
Wprovide
WW 00Y.CO .T
W.1 Y.CO• M
C
.
Advanced
cleaning techniques
maximum
W
W
Y
W
W
W
W
00
W
M.Tassures excellent highWcurrent
W.1 Y.COM
M.T metal alloy contactWmaterial
.100
•OPrecious
Oplating
W.1 withYgold
W
C
.
C
W
.
W
W switchingW
.T
capabilities.
WW .100Y andMdry
M
.100
.Tcircuit
100
M
.
W
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
0
Y
W
.T
0
W
.1
.T
00
WThe
712D
discrete
diode,
OMfor coil transient protection.
W.1 silicon
OM Series utilizes an internal
W
W.1 YThe
C
.
W
C
W
.
Y
W
W
W
W
.T
silicon
andMtransistor
driver. The integrated
W
.100 diode O
M.TSeries features an internal
.100 hybridO712TN
W
W
C
.
W
C
packaging
of
the
relay
with
its
associated
semiconductor
devices
greatly
Y.
W
.TW reduces PC Board
00Y
WW .100floor
.TW
1
M
.
M
space
requirements
as
well
as
component
installation
costs.
O
W
O
W
WW .100Y.C
WW .100Y.C M.TW
W
O
W
W low intercontact
Y.Cof its inherently
WW capacitance and contact circuit losses, the TO-5
WW .1By00virtue
T
.
shown
ENVIRONMENTAL AND
OMitself to be an excellent ultraminiature RF switch for frequency ranges well
W relay has
C
.UHF
W
Y
PHYSICAL SPECIFICATIONS
0
WW into
the
spectrum.
M.T A typical RF application for the TO-5 relay is in hand held radio
.10
O
W
C
.
transceivers,
wherein
the combined features of good RF performance, small size, low
Temperature
-55°C to +85°C
WW .100Y
(Ambient)
coil
power
dissipation
and high reliability make it a preferred method of TransmitW
W
W
Receive
switching
(see
Figure
1).
Vibration
10 g’s to 500 Hz (Note 3)
TELEDYNE RELAYS
712
UPPER
STATIONARY
CONTACT
UNI-FRAME
ARMATURE
LOWER
STATIONARY
CONTACT
MOVING
CONTACT
Shock
30 g’s for 6 msec. (Note 3)
half-sine
Enclosure
Hermetically sealed
Weight
0.09 oz (2.6 gms.) max.
98
.
WW 00Y.CO .TW
W.1 Y.COM W
WW 00Y.CO .TW
W
W
M
.1
M.T
.100
W.1 Y.COM W
WW 00Y.CO .TW
W
W
WW 00Y.CO .TW
W
SERIES 712
.T
00
W.1 Y.COM W
M
.1
W.1 Y.COM W
O
W
W
W
C
.
W
ELECTRICAL
SPECIFICATIONS
(@ 25°C)) (Notes.T
1 & 2)
.T
00
Y
W
WW .100GENERAL
.TW
M
.100
W.1 Y.COM W
M
O
W
O
W
W
C
.
Contact
Form C (DPDT) W
W
W
Y.C Arrangement
WW .1002 Y
WW .100Rated
M.T
.100
M.T
O
W
M.T
Duty
Continuous
O
W
C
.
O
W
W
W
.C
W
00Y (measured
WW .10.15
.TW
(Note 4)
before
life; 0.25 ohm max. after life .at11A/28VDC,
00Yohm max.M
0Y.CResistance
WW .10Contact
M.T 1/8” from header)
.TW
O
W
M
O
W
C
.
O Rating (DC)
W
W
.C
Load
.C
WW .Resistive:
.TW (320 mH) W W.100Y OM.TW
00Y 1200Amp/28VDC
WW .1Contact
.TDCW
1
00Y
(See
Fig. 2 for other
Inductive:
mA/28VDC
M
M
O
W
W
ratings)
100 mA/28VDC
W
.CO .TW
WW .100Y.C M.TW
0Y.C 10
Yvoltage/current
WW Lamp:
T
.
0
0
WW resistive
1
0
M
.
Low
Level:
to
50
µA/10
to
50
mV
O
O
W
OM
WW
W.1 Load
W 60 and 400HzW(Case
0Y.C M.TW
Y.C250 mA/115VAC,
W
not grounded)
0
0
Y.CRatings (AC)
WW Resistive:
T
.
1
0
0
WW Contact
T
.
.
1
0
M
.
O
W
mA/115VAC,
60 and 400Hz (Case
Wgrounded)
W.1 Y.COM W
W
.CO
Y.C
WW 00Y100
W
0
W
0
W
T
.
1
0
WW Contact
T
10,000,000
at low level
M.T
.
1 cycles (typical)
0Life Ratings M.
M
.
O
1
W
.
O
W
C
.
O
W
01,000,000 cycles
at 0.5A/28VDC
resistive
W
0Y
WW
.TW
0Y.C(typical)
WW
0cycles
WW .100Y.C M.TW
M
00,100,000
min. atM
all.T
other loads specified above W.10
1
.
O
O
O
W Overload
WW Resistive
W
Contact
Rating
WW .100Y.C M.TW
W
0Y.C(100 cycles
Y.C
W2A/28VDC
Tmin.)
.
0
0
WW
T
.
1
0
M
.
1
Contact
Contact
OM
WW 00Y.CO .TW
W.Carry Rating
WWfactory00Y.CO .TW
C
.
W
W
W
Y
W
WCoil Operating
M
.1
450 milliwatts
.100Power OM.T
OM rated voltage
W.1 typicalYat.Cnominal
WseeWNote 6)00Y.CO .TW
WTime
W
C
W
.
W
Operate
4.0
msec.
max.
at
nominal
rated
coil
voltage
(712TN
Series:
W
W
Y
W
.T
00
W
OM
W.16.0 msec.
M.T
.100
OM
W3.0.1msec. Y
C
Release W
Time
712 Series:
max.
712D, 712TN
Series:
max.
.
O
W
C
W
.
Y
W
C
W
.
0
W
0
W
.T
WW Capacitance
M.T
.10
.TW
lntercontact
0.4 pf typical .10
00Y
M
O
1
W
M
.
O
W
C
O
W
W min.0between
W terminals WW .100Y.
Insulation
1,000W
megohms
.TW
0Y.C mutually
.Tisolated
0Y.C M.TW
WWResistance
M
1
0
M
.
O
1
W
.
O Hz
W 350 VRMS/60
Dielectric Strength
Atmospheric
pressure:
O
W
WW .100Y.C M.TW
Y.C712TN .TW
WW .100Y.C M.TW
0
WW
0
Diode
P.I.V. (VDC)
712D,
60 min.
M
.1
O712D,
WW 00Y.CO2.0 max..TW
WTransient
WW 00Y.CO .TW
C
.
W
W
Negative
Coil
(VDC)
712TN
W
Y
W
W
.T
1
M
OM
W.1 Y.C0.3
.100
W.Off
OM
min.
Base Voltage to
Turn
(VDC) .CO
W
W
712TN
W
W
C
W
.
0
Y
W
W
W Emitter-base
0
0EBO) (VDC) M.T
Y
Wbreakdown.1(BV
1
0
0
W Transistor
T
M.T
.
.
0
6.0
min.
O
1
W
M
.
O
W
C
.
O
W
W
.C
Y
W
Characteristics
W& Ic = 100 µA)W(VDC)
.TW
(@.T
25°C
100 60 min.
00Y (BVCBO)M
WW .100Y.C M.TW Collector-baseWbreakdown.1Voltage
M
.
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
DETAILED ELECTRICAL
(@ 25°C) (Note 2)
O
WW 00Y.CO .TW
W SPECIFICATIONS
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
.1
.T
00
M
OM
W.1712-5Y.CO712-6
.C712-26
712-9
712-12
WW 712-18
W.1 Y.COM BASEWPART
Y
W
W
0
W
W
.TW
0
W
.T 712D-9 712D-12 W
712D-5
712D-6
712D-18
712D-26
1
00
W
T
M
.
.NUMBERS
1
00
M
.
O
1
M
.
O
W712TN-5 712TN-6
712TN-9
712TN-12
712TN-26
.C
O
W
W
WW 712TN-18
00Y
WW .100Y.C M.TW
1
WW .100Y.C M.TW
M.T
.
O
W
O
W
C
Coil Voltage (VDC)
Nom.
5.0
6.0
9.0
12.0 W 18.0
O
W
W
Y.26.5
W
W
W
WW 5.8.100Y.C8.0 M.T12.0
100 32.0 OM.T
WW .100Y.C M.TMax.
.
16.0
24.0
W
W
.C
O
W
W
.CO .220
WW
Coil Resistance (Ohms W
± 20%
@ 25°C) (Note
4)
390 W 880 100Y
1560
W
Y.C
WW 50 .100Y98
TW
0
T
M.T
.
.
0
M
O
1
W
M
.
O
W
C
.
Pick-up Voltage (VDC, Max.) Pulse
– See Note 6)
3.6
4.2.C
6.5
8.4
13.0
17.0
W
WOperatedY(712TN
Y
.CO SERIES
.TW
WW3.00 .100Y
.TW 1.03 W 0.68W.1000.50
WW Min.).1(Note
M
.TW
00 6)
Base Current to Turn On (mADC,
2.04 OM1.36
O
M
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .T
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W(NOTE 1).100
M
.1
.T
PERFORMANCE CURVES
W.1 Y.COM W
OM
WW 00Y.CO .T
W
W
C
.
W
W
W
Y
W
.T
00
W
W.1 Y.COM
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W
W
.T
WW .100Y
M
.100
.TW
100
M
.
W
M
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
0
Y
W
.T
0
W
.1
.T
00
W.1 Y.COM W
0
WW
W.1 Y.COM W
W
W
W
W
.T
.1
W
300
.100
M.T
.100
OM
W
.2
O
W
C
.
W
C
W
Y
W
W
.3
WW .100Y.
M.T
.100
M.T 250
O
W
O
.4
W
C
WW .100Y.
0Y.C M.TW200
WW .101.92
10
W
W 1.22 Y.CO
20
150
W
WW
WW .11.07
T
30
.
00
W 1.02 Y.COM 100
40
W
W
W
50
1.01
M.T 50
.100
O
W
60
1.00
C
.
WW 1.00.100Y
70
.01
0.5
.1
.5
1.0W
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
WW
➧
TYPICAL RF PERFORMANCE
ERT
dB
ION
)
SS
ACRO
ACTS
CONT
ROSS
N AC
ATIO
ISOL
S
POLE
VSWR
ATION
ISOL
S
(VSWR
N LOSS
RETUR
LOS
LOAD VOLTAGE (VDC)
INS
TYPICAL DC CONTACT RATING (RESISTIVE)
FREQUENCY (GHz)
LOAD CURRENT (AMPS DC)
FIGURE 1
FIGURE 2
99
.
WW 00Y.CO .TW
W.1 Y.COM W
WW 00Y.CO .TW
W
W
.T
W.1 Y.COM W
.100
W.1 Y.COM W
OM
W
W
C
.
W
WW 0SERIES
W
.T
0Y 712
M.T
.100
.TW
100
M
.
O
1
W
M
.
O
W
C
.
O
W
W
WW .100Y
WW .100Y.C M.TW
WW .100Y.C M.TW
M.T
O
W
O
W
DIAGRAMS
.C
W OUTLINE
W (REF. ONLY)WW .1SCHEMATIC
.CODIMENSIONS
NUMBERING
Y.C AND PIN.T
.TW
W
00Y
0LOCATIONS
WW TERMINAL
0
WW .100YCASE
T
M
.
1
M
.
(Viewed
from
Terminals)
O
W
M
DETAIL
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.T10W
WW .100Y.C M.TW
1
O
WW 00Y.CO 712
W
W
WW 00Y.CO8 9 .TW
C
.
W
W
W
Y
W
0
W
M.T
.1
.T
1
0
2
M
.
O
1
W
M
.
O
W
C
O
W
WW .100Y.
.TW
WW .100Y.C 7 M.TW
3
WW .100Y.C M.TW
M
O
W
O
W
4
6
O
W
WW .100Y.C M.TW
WW .100Y.C 5M.TW
WW .100Y.C M.TW
O
WW 00Y.CO712D .TW 712TN
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
.T
00
W
W.1 Y.COM W
M.T
.100
W.1 Y.COM W
O
W
W
W
C
.
W SCHEMATICS
WDIMENSIONS ARE SHOWN
00 ARE VIEWED FROM.TTERMINALS
W IN INCHES.1(MILLIMETERS)
00
WW .100Y
M.T
W.1 Y.COM W
M.T
O
W
O
W
W
C
.
W
W
WW .100Y
WW .100Y.C M.TW
M.T
.100
M.T
O
W
O
W
C
.
O
W
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M.T
.100
O
W
O
W
C
W
W
.C
MOUNTING
PADS
TTL
CIRCUIT
Y.
.CO .TW
WINTERFACE
.VTT W
WW .1Mounting
.TW TYPICAL
100
00Y
0Ymounting
WW
M
.
0with
Relays can
be supplied
pads which are attached to the relays.
(See
Note
5)
M
O
1
W
M
.
O
W
W
pads can be supplied
M4O
to the part W
number (e.g. 7XXM4-26A).
.C
WW .100Y.C M.TW
WW .100Y.C M.TW
WW by.1adding
T
.
00Y
O
W
OM
W
Y.C
WW 00Y.CO .TW Vcc WW
C
.
0
W
.TW
W
0
Y
W
1
W
M
.
.T
1
00
M
.
RELAY
O
1
W
A
M
.
O
W
O
W
WW .100Y.CCOIL M.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
O
W
750Ω
O
W
W
Y.C
WW 00Y.CO .TW
C
1N914
.
0
W
W
.TW
W
0
Y
W
1
W
M
.
.T
1
00
M
.
O
1
B
W
M
.
5438
O
W
O
W
WW .100Y.C M.TW
WW .100Y.C M.TW
MAX
WW .100Y.C M.300
.TW
TYPICAL INSTALLATION
(7.62)
O
WW 3 KΩ 00Y.CO .TW
W
WW 00Y.CO .TW
C
.
W
W
W
Y
W
W
M
.1
.T
00
NOTES:
W.1 Y.COM W
WW 00Y.CO .TW
W.1 Y.COM W
W
W
W
W
1. Material: PolyesterW
film.
.T
00
0
.T
W.1 Y.COM W
.10ohm.
W.1 Y.COM (A) Internal
OM
Suppression Diode W
(B) Internal Driver Transistor
2. Increase contact resistance by
W0.01
W
C
W
.
W
W
W
.T
W
M.T
.100
.TW
100
00Y
M
.
O
1
W
M
.
O
W
C
O
W
WW .100Y.
.TW
WW .100Y.C M.TW
WW .100Y.C M.TW
M
O
W
O
W
O
W
WW .100Y.C M.TW
NOTES:
WW .100Y.C M.TW
WW .100Y.C M.TW
O
WW 00Y.CO .TW
Ware basedY.on
1. Characteristics shown as "typical"
available data and are best estimates.
on-going
tests are performed.
.CO verification
WW No
C
W
Y
W
W
W
0
W
T
.
0
Wparameters
00
2. Unless otherwise specified,
values.
W.1 Y.COM W
M.T
W.1 Y.COM W
O
W
W.1 are initial
W
C
.
W
W
3. Relays will exhibit no contact
W of 1 µsec.
.T
Wchatter in.1excess
M.T
.100
.TorWtransfer in excess
100
00Y of 10 µsec
M
.
O
W
M
O
W
C
.
O
4. For Reference Only. Coil Resistance
measurable on 712TN Relays. W
.C
WW .100Y
WWnot directly
.T
W
Y.C
W
.TW
00Y
WSeries.
1full
00shown
M
.
5. Circuit is typical for all 712TN
Values
areM
for.T
712TN-5 relay, and apply W
over
operating
temperature range.
OM
1
W
.
O
C
.
O
W
W
C
.
Y
W
W
W
W
Y.C
WW .100Y
6. Limit base-emitter current to 15
WmADC.
M.T
.100
M.T
O
W
M.T
.100
O
W
C
.
O
W
W
Y
W
WW .100Y.C M.TW
WW .100Y.C M.TW
M
.100
W
O
W
.CO
O
W
W
C
.
Y
W
C
W
.
0
Y
W
W
W
0
0
Y
W
.T
0
W
.1
.T
00
W.1 Y.COM W
WW
W.1 Y.COM W
W
W
W
W
.T
W
.100
M.T
.100
OM
W
O
W
C
.
W
C
W
Y
W
W
WW .100Y.
M.T
.100
M.T
O
W
O
W
C
WW .100Y.
WW .100Y.C M.TW
W
O
W
WW
WW .100Y.C M.TW
O
W
WW .100Y.C M.TW
O
W
WW .100Y.C
W
WW
.370
(9.40)
DIA. MAX.
.031 (.79)
± .003 (0.08)
TRANSISTOR BASE
CONNECTION FOR
712TN ONLY
.335
(8.51)
DIA. MAX.
.035 (.89)
± .010 (0.25)
.275 (6.99) MAX.
.200 (5.08)
± .010 (.25) DIA.
36° ±3° TYP.
WIRE LEAD: .75 (19.05) MIN.
+.002 (.05)
.017 (.43) –.001 (.03) DIA.
©1996
TELEDYNE RELAYS
100
12525 Daphne Avenue
Hawthorne, California 90250
Similar