0604HQ

Document 285-1
Chip Inductors - 0604HQ (1610)
•Combines the exceptionally high Q of an air core inductor
with the rugged construction of a ceramic body component.
Request free evaluation samples by contacting Coilcraft
or visiting www.coilcraft.com.
•Provides intermediate inductance values not available in
Coilcraft’s 0603, 0402 or 0906 product families
SRF DCR
min5
max6 Irms7Color
Inductance2
Percent
Q900 MHz1.7 GHz
tolerance3 min4 L typ Q typ
Part number1(nH)
L typ Q typ
(GHz) (Ohms) (A) code
0604HQ-1N1XJL_1.15
5
25 1.2 40 1.2136 12.3 0.0213.0 Black
0604HQ-2N6XJL_2.6
5
45 2.6 78 2.6 163
9.3 0.0262.0Brown
0604HQ-4N5XJL_4.5
5
50 4.5 103 4.7155
5.8 0.0321.8 Red
0604HQ-5N0XJL_5.0
5
60 4.9 106 5.2 178
5.3 0.032 1.6Orange
0604HQ-6N8XJL_6.8
5
60 6.9 101 7.4 172
4.7 0.0351.8Yellow
0604HQ-7N6XJL_7.6
5
60 7.4 109 7.9 137
4.4 0.0351.5Green
0604HQ-10NXJL_10.4
5
6010.6 103 11.5160
4.1 0.0371.5 Blue
1. When ordering, please specify termination and packaging codes:
Designer’s Kit C351 contains 10 each of all values
0604HQ-10NXJLC
Termination:L=RoHS compliant silver-palladium-platinum-glass frit.
Special order: T = RoHS tin-silver-copper
(95.5/4/0.5) or S = non-RoHS tin-lead (63/37).
Packaging:C
=7″ machine-ready reel. EIA-481 embossed plastic
tape (2000 parts per full reel).
B=Less than full reel. In tape, but not machine ready.
To have a leader and trailer added ($25 charge),
use code letter C instead.
2. Inductance measured at 500 MHz using a Coilcraft SMD-A fixture in an
Agilent/HP 4286 impedance analyzer with Coilcraft-provided correlation
pieces.
3. Tolerances in bold are stocked for immediate shipment.
4. Q measured at 500 MHz using an Agilent/HP 4291A with an Agilent/
HP 16193 test fixture.
5. For SRF less than 6 GHz, measured using an Agilent/HP 8753D network
analyzer and a Coilcraft SMD-D test fixture. For SRF greater than 6 GHz,
measured using an Agilent/HP 8722ES network analyzer and a Coilcraft
SMD­‑D test fixture.
6. DCR measured on a Cambridge Technology micro-ohmmeter and a
Coilcraft CCF858 test fixture.
7. Current that causes a 15°C temperature rise from 25°C ambient.This
information is for reference only and does not represent absolute
maximum ratings.
8. Electrical specifications at 25°C.
9. Temperature coefficient of inductance: +25 to +125 ppm/°C.
Refer to Doc 362 “Soldering Surface Mount Components” before soldering.
Core material Ceramic
Terminations RoHS compliant silver-palladium-platinum-glass frit.
Other terminations available at additional cost.
Weight 4.6 – 5.6 g
Ambient temperature –40°C to +125°C with Irms current
Maximum part temperature +140°C (ambient + temp rise).
Storage temperature Component: –40°C to +140°C.
Tape and reel packaging: –40°C to +80°C
Resistance to soldering heat Max three 40 second reflows at
+260°C, parts cooled to room temperature between cycles
Temperature Coefficient of Inductance (TCL) +25 to +126 ppm/°C
Moisture Sensitivity Level (MSL) 1 (unlimited floor life at <30°C /
85% relative humidity)
Failures in Time (FIT) / Mean Time Between Failures (MTBF)
One per billion hours / one billion hours, calculated per Telcordia SR-332
Packaging 2000 per 7″reel; Plastic tape: 8 mm wide, 0.23 mm thick,
4 mm pocket spacing, 1.27 mm pocket depth
PCB washing Tested to MIL-STD-202 Method 215 plus an additional
aqueous wash. See Doc787_PCB_Washing.pdf.
Document 285-1 Revised 10/12/15
Document 285-2
0604HQ Series (1610)
Typical Q vs Frequency
220
Typical L vs Frequency
10.4 nH
200
6.8 nH
12
10.4 nH
4.5 nH
Q Factor
160
140
120
100
1.1 nH
80
60
Inductance (nH)
180
7.6 nH
6.8 nH
8
5.0 nH
4.5 nH
4
2.6 nH
40
20
0
1.1 nH
0
1
10
100
1000
10000
C
Pick and
place
material
F
A
E
terminal
1000
10000
I
J
F
I
D
100
H
G
Terminal wraparound:
approx 0.007/0,18 both ends
10
Frequency (MHz)
Frequency (MHz)
B
overall
1
Recommended
Land Pattern
ABCD
maxmaxmax ref E F G H IJ
0.0730.0540.0470.0250.0400.0130.0340.0530.0250.025inches
1,851,371,190,641,020,330,861,350,630,63
mm
Note: Height dimension (C) is before optional solder application. For maximum
height dimension including solder, add 0.006 in / 0,152 mm.
Document 285-2 Revised 10/12/15