Datasheet 3D Model

ST466PJD Series

Coupled Inductors for Critical Applications

The ST466PJD Series coupled miniature shielded inductors are only 3 mm high and 5 mm square. They are ideal for use in a variety of circuits including flyback, multi-output buck, SEPIC and Zeta.

These inductors provide high inductance, high efficiency and excellent current handling in a rugged, low cost part.

They can also be used as two single inductors connected in series or parallel or as a common mode choke.

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Specifications

Electrical specifications at 25°C.

For Flyback Applications

Part number 1	Inductance (µH) 2	Tolerance (%)	DCR max (Ω) 3	Isolation Voltage (V)	Leakage Inductance (µH) 5
Part number 1	Inductance (µH) 2	Tolerance (%)	DCR max (Ω) 3	Isolation Voltage (V)	Leakage Inductance (µH) 5
ST466PJD102NLZ	1.0	30	0.042	100	0.090
ST466PJD152MLZ	1.5	20	0.048	100	0.090
ST466PJD222MLZ	2.2	20	0.067	100	0.10
ST466PJD332MLZ	3.3	20	0.077	100	0.10
ST466PJD472MLZ	4.7	20	0.11	100	0.11
ST466PJD562MLZ	5.6	20	0.13	100	0.11
ST466PJD682MLZ	6.8	20	0.16	100	0.12
ST466PJD103MLZ	10	20	0.21	100	0.13
ST466PJD153MLZ	15	20	0.30	100	0.15
ST466PJD223MLZ	22	20	0.45	100	0.17
ST466PJD333MLZ	33	20	0.57	100	0.20
ST466PJD473MLZ	47	20	0.81	100	0.24
ST466PJD683MLZ	68	20	1.1	100	0.29
ST466PJD104MLZ	100	20	1.8	100	0.37
ST466PJD154MLZ	150	20	2.4	100	0.46
ST466PJD224MLZ	220	20	3.3	100	0.54
ST466PJD334MLZ	330	20	5.4	100	0.65
ST466PJD474MLZ	470	20	7.5	100	0.76
ST466PJD684MLZ	680	20	10.8	100	0.89
ST466PJD105MLZ	1000	20	16.5	100	1.2

For SEPIC Applications

Part number 1	Inductance (µH) 2	Tolerance (%)	DCR max (Ω) 3	SRF Typ (MHz) 4	Coupling coefficient	Leakage Inductance (µH) 5	Isat (A) 6			Irms (A)
Part number 1	Inductance (µH) 2	Tolerance (%)	DCR max (Ω) 3	SRF Typ (MHz) 4	Coupling coefficient	Leakage Inductance (µH) 5	10% drop	20% drop	30% drop	both windings 7	one winding 8
ST466PJD102NLZ	1.0	30	0.042	156	0.95	0.090	4.6	4.8	5.0	2.60	3.68
ST466PJD152MLZ	1.5	20	0.048	123	0.97	0.090	3.9	4.2	4.3	2.20	3.11
ST466PJD222MLZ	2.2	20	0.067	78.0	0.98	0.10	3.1	3.3	3.4	2.15	3.04
ST466PJD332MLZ	3.3	20	0.077	65.0	0.98	0.10	2.5	2.7	2.8	1.85	2.62
ST466PJD472MLZ	4.7	20	0.11	53.0	0.99	0.11	2.1	2.2	2.2	1.45	2.05
ST466PJD562MLZ	5.6	20	0.13	48.0	0.99	0.11	2.0	2.0	2.1	1.35	1.91
ST466PJD682MLZ	6.8	20	0.16	43.0	0.99	0.12	1.8	1.9	1.9	1.20	1.70
ST466PJD103MLZ	10	20	0.21	31.0	0.99	0.13	1.3	1.3	1.3	1.05	1.48
ST466PJD153MLZ	15	20	0.30	25.0	0.99	0.15	1.2	1.4	1.4	0.85	1.20
ST466PJD223MLZ	22	20	0.45	19.0	1	0.17	1.0	1.1	1.1	0.70	0.99
ST466PJD333MLZ	33	20	0.57	15.0	1	0.20	0.80	0.84	0.85	0.60	0.85
ST466PJD473MLZ	47	20	0.81	12.6	1	0.24	0.65	0.69	0.72	0.50	0.71
ST466PJD683MLZ	68	20	1.1	10.0	1	0.29	0.50	0.54	0.55	0.46	0.64
ST466PJD104MLZ	100	20	1.8	8.3	1	0.37	0.47	0.54	0.56	0.35	0.49
ST466PJD154MLZ	150	20	2.4	6.8	1	0.46	0.38	0.43	0.45	0.31	0.43
ST466PJD224MLZ	220	20	3.3	5.6	1	0.54	0.31	0.35	0.36	0.26	0.37
ST466PJD334MLZ	330	20	5.4	4.1	1	0.65	0.25	0.25	0.32	0.20	0.28
ST466PJD474MLZ	470	20	7.5	3.3	1	0.76	0.21	0.24	0.26	0.17	0.23
ST466PJD684MLZ	680	20	10.8	2.8	1	0.89	0.17	0.20	0.21	0.14	0.19
ST466PJD105MLZ	1000	20	16.5	2.2	1	1.2	0.15	0.17	0.17	0.11	0.15

Notes

When ordering, please specify termination and screening code: e.g. ST466PJD105MLZ.
Inductance shown for each winding, measured at 100 kHz, 0.1 Vrms, 0 Adc on an Agilent/HP 4284A LCR meter or equivalent. When leads are connected in parallel, inductance is the same value. When leads are connected in series, inductance is four times the value.
DCR is for each winding. When leads are connected in parallel, DCR is half the value. When leads are connected in series, DCR is twice the value.
SRF measured using an Agilent/HP 4191A or equivalent. When leads are connected in parallel, SRF is the same value.
Leakage Inductance is for L1 and is measured with L2 shorted.
DC current, at which the inductance drops the specified amount from its value without current. It is the sum of the current flowing in both windings.
Equal current when applied to each winding simultaneously that causes a 40°C temperature rise from 25°C ambient. See temperature rise calculation.
Maximum current when applied to one winding that causes a 40°C temperature rise from 25°C ambient. See temperature rise calculation.

Termination:

L =Silver-palladium-platinum-glass frit.
R = Matte tin over nickel over silver.
T =Tin-silver-copper (95.5/4/0.5).
S =Tin-lead (63/37).

Screening:

Z = Unscreened
Y = Unscreened (SLDC Option A)
W = Unscreened (SLDC Option B)
H =Group A screening per Coilcraft CP-SA-10001
G= Coilcraft CP-SA-10001 Group A (SLDC Option A)
D = Coilcraft CP-SA-10001 Group A (SLDC Option B)

All screening performed to the document’s latest revision.
Custom screening also available.

Environmental

Ambient temperature range:

–40°C to +85°C with Irms current.

Storage temperature range:

Component: –55°C to +125°C.
Packaging: –55°C to +80°C.

Maximum part temperature:

+125°C (ambient + temp rise).

Failures in Time (FIT) / Mean Time Between Failures (MTBF):

See FIT/MTBF Calculations

Performance curves

Typical L vs Current

Typical L vs Frequency

Schematics

Physical characteristics

Dimensions are in ^inches⁄_mm

General specification

Core Material:

Ferrite

Weight:

210 – 300 mg

Packaging:

750 per 7″ reel Plastic tape: 12 mm wide, 0.32 mm thick, 8 mm pocket spacing, 3.1 mm pocket depth.

Winding to Winding Isolation:

100 V

Soldering/Washing

Moisture Sensitivity Level (MSL):

1 (unlimited floor life at <30°C / 85% relative humidity).

Resistance to soldering heat:

Max three 40 second reflows at +260°C, parts cooled to room temperature between cycles.

Refer to Soldering Coilcraft Components before soldering.

Recommended Pick & Place Nozzle:

OD: 5 mm; ID: ≤ 2.5 mm