KMP_766C_C04 Page 1 of 3
766 Series
Pulse Transformers
www.murata-ps.com
www.murata-ps.com/support
For full details go to
www.murata-ps.com/rohs
SELECTION GUIDE1
Order Code
Turns
Ratio
±2%
Min. Primary
Inductance
Min. Primary
Constant, ET
Max. Leakage
Inductance
Max.
Interwinding
Capacitance
Max.
DC Resistance
Max. Isolation
Voltage
Pin Connection
Style
Mechcanical
Dimensions
μH Vμs μH pF Vrms
76600/1C 1:1 1916 17.5 0.60 49 1.50
500
A
1
76600/2C 1:1 492 8.5 0.30 22 0.80
76600/3C 1:1 219 5.5 0.25 14 0.50
76600/4C 1:1 50 4.0 0.20 10 0.40
76601/1C 1:1 1916 17.5 0.60 49 1.50
B
76601/2C 1:1 492 8.5 0.30 22 0.80
76601/3C 1:1 219 5.5 0.25 12 0.50
76601/20C 1:1 20.1 2.5 0.20 5 0.20
76601/23C 1:1 938 10.5 0.20 35 0.20
76601/24C 1:1 11.7mH 50.5 0.40 250 1.35
76602/1C 1:1:1 2060 17.5 0.60 72 1.50 C
2
76615/1C 1CT:1CT 3200 45 2.00 52 1.00 D
76616/3C 2CT:1CT 4350 23 3.00 35 1.00
Please note: For additional variants please see 786 series datasheet.
ABSOLUTE MAXIMUM RATINGS
Operating free air temperature range 0°C to 70°C
Storage temperature range -60°C to 125°C
SOLDERING INFORMATION1
Peak wave solder temperature 300˚C for 10 seconds
Pin finish Matte tin with nickel pre-plate
1 For further information, please visit www.murata-ps.com/rohs
All specifications typical at TA=25°C.
FEATURES
n RoHS compliant
n 4 Configurations
n Inductance to 11.7mH
n Up to 50 Vμs ET
n Industry standard pinout
n 500VDC Isolation
n PCB mounting
n UL 94 V-0 package materials
n Toroidal construction
n Fully encapsulated
DESCRIPTION
The 766 Series is a range of general purpose
pulse transformers. Common applications include
line coupling, impedance-matching, or isolating.
The devices can also be used in small isolated
power supplies or as common-mode chokes in
filtering applications.
KMP_766C_C04 Page 2 of 3
766 Series
Pulse Transformers
www.murata-ps.com/support
PACKAGE SPECIFICATIONS
MECHANICAL DIMENSIONS
RECOMMENDED FOOTPRINT DETAILS TUBE DIMENSIONS
Holes may be omitted for variants with fewer than 6 pins.
Unless otherwise stated all dimensions in mm (inches) ±0.25 (0.01).
All pins on a 2.54 (0.1) pitch and within ±0.25 (0.01) of true position.
Unless otherwise stated all dimensions in mm (inches) ±0.25 (0.01).
All pins on a 2.54 (0.1) pitch and within ±0.25 (0.01) of true position.
Package Weight: 1.1g Typ.
2.54 (0.100)
2.54 (0.100)
x6 HOLES*
Ø1.00+0.15-0.00 (Ø0.039+0.006-0.000)
15.25 (0.60)
6.9+0.5-0.0 (0.272+0.02-0.0)
0.50±0.15 (0.020±0.006)
11.00+0.5-0.0
(0.433+0.02-0.0)
21.25 (0.84)
Tube length: 520±2.0 (20.47±0.08)
Unless otherwise stated all dimensions in mm (inches) ±0.55 (0.022).
1 2
XYYWW
3
1
5
4
2
6
1C
602
12.70 (0.500) Max.
8.89 (0.350) Max.
10.00 (0.394)
0.56±0.05 (0.022±0.002)
10.16 (0.400)
2.54 (0.100)
2.54 (0.100) 5.84 (0.230)
6.35 (0.250)
XYYWW
21
56C
610
6
10.16 (0.400)
5.08 (0.200)
2.54 (0.100)
0.56±0.05 (0.022±0.002)
8.89 (0.350) Max.
5.84 (0.230)
10.00 (0.394)
12.70 (0.500) Max.
6.35 (0.250)
KMP_766C_C04 Page 3 of 3
766 Series
Pulse Transformers
Murata Power Solutions, Inc. makes no representation that the use of its products in the circuits described herein, or the use of other
technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not imply
the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without
notice. © 2011 Murata Power Solutions, Inc.
Murata Power Solutions, Inc.
11 Cabot Boulevard, Mansfield, MA 02048-1151 U.S.A.
ISO 9001 and 14001 REGISTERED
www.murata-ps.com/support
TECHNICAL NOTES
ISOLATION VOLTAGE
‘Hi Pot Test’, ‘Flash Tested’, ‘Withstand Voltage’, ‘Proof Voltage’, ‘Dielectric Withstand
Voltage’ & ‘Isolation Test Voltage’ are all terms that relate to the same thing, a test
voltage, applied for a specified time, across a component designed to provide electrical
isolation, to verify the integrity of that isolation.
All products in this series are 100% production tested at their stated isolation voltage.
A question commonly asked is, “What is the continuous voltage that can be applied
across the part in normal operation?”
For a part holding no specific agency approvals both input and output should normally
be maintained within SELV limits i.e. less than 42.4V peak, or 60VDC. The isolation test
voltage represents a measure of immunity to transient voltages and the part should
never be used as an element of a safety isolation system. The part could be expected
to function correctly with several hundred volts offset applied continuously across the
isolation barrier; but then the circuitry on both sides of the barrier must be regarded
as operating at an unsafe voltage and further isolation/insulation systems must form
a barrier between these circuits and any user-accessible circuitry according to safety
standard requirements.
REPEATED HIGH-VOLTAGE ISOLATION TESTING
It is well known that repeated high-voltage isolation testing of a barrier component
can actually degrade isolation capability, to a lesser or greater degree depending on
materials, construction and environment. This series has toroidal isolation transformers,
with no additional insulation between primary and secondary windings of enameled
wire. While parts can be expected to withstand several times the stated test voltage,
the isolation capability does depend on the wire insulation. Any material, including this
enamel (typically polyurethane) is susceptible to eventual chemical degradation when
subject to very high applied voltages thus implying that the number of tests should be
strictly limited. We therefore strongly advise against repeated high voltage isolation
testing, but if it is absolutely required, that the voltage be reduced by 20% from speci-
fied test voltage.
This consideration equally applies to agency recognized parts rated for better than
functional isolation where the wire enamel insulation is always supplemented by a
further insulation system of physical spacing or barriers.
PACKAGE SPECIFICATIONS (continued)
PIN CONNECTION STYLE - 6 PIN DIP (TOP VIEW)
PRI
SEC
SECPRI 3
5
1
4
6
2
SEC 1
SEC 2
PRI
6
2
5
1
6
2
5
1
A B
SECPRI
6
2
5
1
3 4
C D