SAW Components
Data Sheet B4167
SAW Components Low-Loss Filter for Mobile Communication Data Sheet
B4167 1842,5 MHz
Ceramic package DCC6D Features
q Low-loss RF filter for mobile telephone
PCN systems, receive path Low amplitude ripple Usable passband 75 MHz Unbalanced to balanced operation Impedance transformation from 50Ω to 200Ω Package for Surface Mounted Technology (SMT) q Ceramic SMD package
q q q q q
Terminals
q Ni, gold-plated
Dimensions in mm, approx. weight 0,037 g Pin configuration 2 4, 6 1, 3 1, 3, 5 Input, unbalanced Output, balanced Input ground To be grounded
Type B4167
Ordering code B39182-B4167-U510
Marking and Package according to C61157-A7-A68
Packing according to F61074-V8089-Z000
Electrostatic Sensitive Device (ESD) Maximum ratings Operable temperature range Storage temperature range DC voltage Input power max. 1710 ... 1785 MHz 1805 ... 1880 MHz elsewhere
T Tstg VDC PIN PIN PIN
– 20 / + 75 – 40 / + 85 5 11 11 0
˚C ˚C V dBm dBm dBm source/load impedance 50/200 Ω peak power of GSM signal, duty cycle 2 : 8
2
Dec 06, 2000
SAW Components Low-Loss Filter for Mobile Communication Data Sheet
Characteristics Operating Temperature Range: Terminating source impedance: Terminating load impedance:
B4167 1842,5 MHz
T = +25 ± 2 ˚ C ZS = 50Ω (unbalanced) ZL = 200Ω || 22 nH (balanced)
min. typ. 1842,5 max. — MHz
Center frequency Maximum insertion attenuation 1805,0 ... 1880,0 Amplitude ripple (p-p) 1805,0 ... 1880,0 Input VSWR 1805,0 ...1880,0 Output VSWR 1805,0 ...1880,0 Output amplitude balance (|S31/S21|) 1805,0 ...1880,0 MHz MHz
fC
αmax MHz ∆α MHz
—
—
2,0
3,5
dB
—
0,9
2,0
dB
—
1,8
2,3
—
1,8
2,3
MHz
-1,5
-1,1 / +0,6
1,5
dB
Output phase balance (φ(S31)−φ(S21)+180˚) 1805,0 ...1880,0 MHz Attenuation 0,0 1000,0 1550,0 1705,0 1920,0 1980,0 2010,0 2500,0 3840,0 ... 1000,0 ... 1550,0 ... 1705,0 ... 1785,0 ... 1980,0 ... 2010,0 ... 2500,0 ... 3840,0 ... 6000,0 MHz MHz MHz MHz MHz MHz MHz MHz MHz α
-12
+/- 6
12
˚
40 30 25 12 12 18 20 25 20
50 40 28 18 17 22 26 35 32
— — — — — — — — —
dB dB dB dB dB dB dB dB dB
3
Dec 06, 2000
SAW Components Low-Loss Filter for Mobile Communication Data Sheet
Characteristics Operating Temperature Range: Terminating source impedance: Terminating load impedance:
B4167 1842,5 MHz
T = -10 to +80˚C ZS = 50Ω (unbalanced) ZL = 200Ω (balanced) || 22 nH
min. typ. 1842,5 max. — MHz
Center frequency Maximum insertion attenuation 1805,0 ... 1880,0 Amplitude ripple (p-p) 1805,0 ... 1880,0 Input VSWR 1805,0 ...1880,0 Output VSWR 1805,0 ...1880,0 Output amplitude balance (|S31/S21|) 1805,0 ...1880,0 MHz MHz
fC
αmax MHz ∆α MHz
—
—
2,5
4,0
dB
—
1,4
2,5
dB
—
1,8
2,4
—
1,8
2,4
MHz
-1,5
-1,1 / +0,6
1,5
dB
Output phase balance (φ(S31)−φ(S21)+180˚) 1805,0 ...1880,0 MHz Attenuation 0,0 1000,0 1550,0 1705,0 1920,0 1980,0 2010,0 2500,0 3840,0 ... 1000,0 ... 1550,0 ... 1705,0 ... 1785,0 ... 1980,0 ... 2010,0 ... 2500,0 ... 3840,0 ... 6000,0 MHz MHz MHz MHz MHz MHz MHz MHz MHz α
-15
+/- 6
15
˚
40 30 25 10 10 18 20 25 20
50 40 28 15 17 22 26 35 32
— — — — — — — — —
dB dB dB dB dB dB dB dB dB
4
Dec 06, 2000
SAW Components Low-Loss Filter for Mobile Communication Data Sheet
Transfer function
B4167 1842,5 MHz
Transfer function (wide band)
5
Dec 06, 2000
SAW Components Low-Loss Filter for Mobile Communication Data Sheet
B4167 1842,5 MHz
Published by EPCOS AG Surface Acoustic Wave Components Division, OFW E MF P.O. Box 80 17 09, D-81617 München © EPCOS AG 1999. All Rights Reserved. As far as patents or other rights of third parties are concerned, liability is only assumed for components per se, not for applications, processes and circuits implemented within components or assemblies. The information describes the type of component and shall not be considered as assured characteristics. Terms of delivery and rights to change design reserved. For questions on technology, prices and delivery please contact the sales offices of EPCOS AG or the international representatives. Due to technical requirements components may contain dangerous substances. For information on the type in question please also contact one of our sales offices.
6
Dec 06, 2000