ETC PBRC

KYOCERA
Timing Devices
Resonators
Crystals
Oscillators
Table of Contents
CERAMIC RESONATORS
General Description .................................................................................................. 2-7
KBR -Y Series - Surface Mountable — fo: 380 to 1050 kHz ..................................... 8-9
KBR -B, -BK, -F Series — fo: 190 to 1050 kHz ..................................................... 10-11
KBR Special Series .................................................................................................... 12
PBRC -A Series - Surface Mountable — fo: 2.00 to 8.00 MHz................................... 13
PBRC -B/D Series - Surface Mountable — fo: 2.00 to 36.00 MHz ............................. 14
Tape & Reel Packaging, PBRC-A/B/D ....................................................................... 15
SSR-B Series ............................................................................................................. 16
KBR -M, -MS, -MSA, -MSB Series — fo: 2.00 to 13.00 MHz ..................................... 17
KBR -MY, MSA Series — fo: 13.01 to 36.00 MHz ...................................................... 18
KBR -MKC, -MKD, -MKS Series — fo: 3.45 to 8.00 MHz and 16.00 to 36.00 MHz ...... 19
Tape & Reel Packaging, MHz Ceramic Resonators .................................................. 20
SURFACE ACOUSTIC WAVE RESONATORS
General Description ................................................................................................... 21
PAR Series ................................................................................................................ 22
KAR -CS, -CT, -CB, -CD, -CK Series — fo: 46 to 315 MHz .................................. 23-24
KAR Series Data ........................................................................................................ 25
QUARTZ CRYSTALS
KSX Series ................................................................................................................. 26
KT Series ................................................................................................................... 27
CLOCK OSCILLATORS
General Description .............................................................................................. 28-30
K50 Series — fo: 8 to 68 MHz ............................................................................... 31-34
KT11 Series ............................................................................................................... 35
KT12 Series ............................................................................................................... 36
KT14 Series ............................................................................................................... 37
VCO Series ........................................................................................................... 38-42
KXO-01 Series — fo: 8.0 to 50 MHz ...................................................................... 43-44
KXO-HC/KHO-HC Series — fo: 1.0 to 80 MHz ..................................................... 45-46
386 Series ............................................................................................................. 47-48
1
Timing Device Product Offering
QUARTZ CRYSTALS, RESONATORS and CLOCK OSCILLATORS
Oscillating Frequency
Product Name
Applications
Type
1KHz
10KHz
100KHz
1MHz
10MHz
100MHz
1GHz
10GHz
Leaded
12.0M
22.0M
Telecommunication
SMD
12.0M
22.0M
Telecommunication
Quartz Crystal
Leaded
KHz Band
Micro Processor
960k ~ 1050k
380k ~ 430k
440k ~ 525k
600k ~ 655k
SMD
Ceramic
Resonator
190k ~ 680k
795k ~ 815k
795k ~ 815k
960k ~ 1050k
Leaded
1.92M
SMD
2.0M
Micro Processor
Micro Processor
40.0M
MHz Band
Micro Processor
60.0M
Leaded
46M
479M
RF Modulator
Keyless Entry
479M
RF Modulator
Keyless Entry
Saw Resonator
SMD
300M
Leaded
Clock
Oscillator
500k
SMD
KT 11,12,14
Series
8.0M
SMD
12.0M
72M
Micro Processor
68M
Micro Processor
Telecommunication
20.0M
VOLTAGE CONTROLLED OSCILLATORS
Frequency
500MHz
1GHz
1.5GHz
VK Series
VK Series
YK Series
YK Series
System
JPN
CTI CTI+
Cordless
Phone
PHS
DECT
CT2+
Transceiver
LAN
Low Power
Transmitter
Remote Controller
Control
Wireless
Microphone
AMPS
TACS
NMT
NTT
Cellular
Phone
PDC
GSM
US digital
PCN
Satellite
2
GPS
Application
Availability
EK Series
EK Series
Application
2GHz
RK Series
RK Series
AVX/Kyocera Ceramic Resonators
kHz BAND CERAMIC RESONATORS
Part Series
Frequency Range
Type
Lead Configuration
KBR-Y
380 to 1050 kHz
SMT
Gull Wing Surface Mount
KBR-B
190 to 680 kHz
Std Qm
Standard, Single-in-line, Formed Leads
KBR-BK
380 to 655 kHz
Std Qm
Standard, Single-in-line
KBR-F
795 to 1050 kHz
High Qm
Standard, Single-in-line
Specials
Per application
—
—
MHz BAND CERAMIC RESONATORS
Part Series
Frequency Range*
Type
PBRC-A
2.00 to 8.00 MHz
SMT without Capacitor
PBRC-B/D
2.00 to 36.00 MHz
SMT with Built-in Capacitor
SSR-B
16.00 to 60.00 MHz
Ultraminiature SMT with Built-in Capacitor
KBR-MS
2.00 to 3.57 MHz
Standard
KBR-MSA
3.58 to 8.00 MHz
Water resistant
KBR-MSB
3.58 to 6.00 MHz
“No-Clean” Process only
KBR-M
6.01 to 13.00 MHz
Standard
KBR-MY
13.01 to 16.00 MHz
CMOS
KBR-MSA
16.00 to 36.00 MHz
High Frequency Standard
KBR-MKS
3.58 to 8.00 MHz
Built-in Capacitor –Low Profile
KBR-MKC
3.58 to 8.00 MHz
Built-in Capacitor -“No-Clean” Process only
KBR-MKD
3.58 to 8.00 MHz, 16.00 to 36 MHz
Built-in Capacitor-Water resistant
*For additional frequencies consult factory.
3
AVX/Kyocera Ceramic Resonators
GENERAL DESCRIPTION
AVX/Kyocera produces a broad range of high quality
ceramic resonators covering both the kilohertz and
megahertz frequency ranges. The high quality and extensive
coverage of this product line allows optimum design of
almost any oscillating circuit.
Ceramic resonators stand between quartz crystal
oscillators and LC/RC oscillators in regard to accuracy but
are considerably smaller, require no adjustments, have
improved start-up times, and are low in cost.
Their oscillation is dependent upon mechanical
resonance associated with their piezoelectric crystalline
structure. These materials (usually barium titanate or leadzirconium titanate, PZT) have large dipole movement which
causes the distortion or growth of the crystal by an applied
Table I
Oscillators and Resonator Frequency Application
(Hz)
10k
20k
100k 200k
1M
2M
10M
20M 100M 200M
electric field. The resonance frequency depends on the
vibration mode as shown in Figure 1.
A basic feedback circuit is shown in Figure 2. It consists
of an amplifier with a 180° phase shift and attenuator. A
negative polar output (volt) is obtained with an amplitude
equal to the gain of the amplifier times the input voltage (G
× VIN). After the signal goes through the feedback network
with an attenuation ratio of ß, a negative polar wave equal
to ß × (G × VIN) is fed back to the input. If this feedback is
greater than the initial input voltage (VIN), oscillation will
occur. This satisfies the two conditions necessary for
oscillation:
1.G × ß>1
2. Phase cycle around the loop is an integral multiple of 360°.
Table II
Timing Devices
1G
Ceramic Resonators
190 kHz ~ 60 MHz
Frequency
Tolerance
Typical
Frequency
Stability
Relative
Size
Cost
LC
±2%
±500ppm/°C
Largest
Low
RC
±1%
±100ppm/°C
Smallest
Low
Ceramic
Resonator
±0.5%
Quartz
Crystal
±0.002%
Type
Symbol
SAW Resonators
46 MHz ~ 315 MHz
Oscillators
1 MHz ~ 2 GHz
Quartz Crystals
12 MHz ~ 22 MHz
Figure 1: Vibration Modes vs Frequency
Figure 2: Basic Feedback Circuit
±50ppm/°C Next to Smallest
Low
±1ppm/°C
High
Next to Largest
Figure 3: Oscillator Circuit
VDD
FREQUENCY Hz
Inverter
APPLICATION
VIBRATION MODE
Fosc
EXPANDING
KBR-B/BK SERIES
KBR-F SERIES
THICKNESS
SHEAR
KBR-MS/MSA SERIES
KBR-MKS SERIES
PBRC SERIES
CLOCK OSCILLATORS
THICKNESS
KBR-M SERIES
KBR-MY SERIES
SURFACE
ACOUSTIC
WAVE
KAR SERIES
VIN 1
VIN
180°
PHASE
SHIFT
G VIN 1
AMP
VOUT
Rf
Ceramic
Resonator
GAIN: G
ATTENUATION ß
FEEDBACK
NETWORK
G ß VIN 1
4
Inverter
1K 10K100K 1M 10M 100M 1G 10G
180°
PHASE
SHIFT
C1
C2
EXAMPLE
Inverter: MC14069UBP
5 V.D.C.
VCC:
Rf:
1M ohms
C1, C2:
100 pF
(455 kHz Resonator)
33 pF
(4.00 MHz Resonator)
AVX/Kyocera Ceramic Resonators
GENERAL DESCRIPTION continued
The mechanical vibration of a ceramic resonator can
be represented by an equivalent electrical circuit consisting
of L, C, and R’s (Figure 4). The impedance and phase
curves of a ceramic resonator are shown in Figure 5.
Between the resonant frequency (ƒr) and the antiresonant frequency (ƒa), the ceramic resonator acts like an
inductor with performance identical to a coil and a resistor
(Figure 4-B). At other frequencies, it has capacitive
characteristics (Figure 4-A).
Figure 4:
Electrical Equivalent Circuit
L0
A
The equivalent circuit parameters can be determined
from the resonant and anti-resonant frequencies. These
equations are shown in Table III with the equivalent circuit
parameters of typical AVX/Kyocera resonators shown in Table
IV.
Ceramic resonators have much lower Qm and higher
equivalent capacitances than crystal oscillators. Oscillation
circuits of various I.C.’s can be either low (inverter) or high
(Schmidt) gain.
Figure 5:
Impedance and Phase Charts
C0
R0
KBR-455BK
100K
fa
90
C1
B
a
Le
Phase Φ (deg.)
Impedance|Z| (Ω)
10K
C1
1K
100
Re
-90
fr
10
430
450
470
Frequency (kHz)
Table III: Equivalent Circuit Equations
0
430
450
470
Frequency (kHz)
Table IV: Typical Parameters of the Equivalent Circuit
KBR-4.00MSA/MSB
KBR-455(BK)
R0
8Ω
6Ω
L0
318µH
3.2mH
C0
5.4pF
43pF
C1
42pF
360pF
QM
970
1600
5
AVX/Kyocera Ceramic Resonators
APPLICATION AND TEST CIRCUITS
In some circuits, a feedback resistor (Rƒ, Figure 1) is
required to allow oscillation to start when the power is
initially applied. Its value is generally 1 MΩ in ceramic
resonator circuits.
Special attention should be paid to the design of
oscillator circuits, because they have a significant impact
on the performance of the system. To determine proper
circuit parameters, careful consideration must be given
to each component’s characteristics under normal and
marginal working conditions. Recommended component
values for various IC’s and microprocessors are given in
theAppendix “Application Circuits for Ceramic Resonators.” These values should be checked in the actual operating circuit to confirm their performance over changing
conditions of input voltage and temperature.
Figure 1:
CMOS Clock Generator 480kHz
Figure 2:
Low Power Schottky
VDD
KBR-4.00MSA/MSB
KBR-6.00MSA/MSB
KBR-8.00M
14
IC-4069
R1: 4.7 k ohm
R2: 2.2 k ohm
C1,C2: 220 pF
C1,C2: 120 pF
C1,C2: 82 pF
SN74LSO4
1
1 MEG Ω
Rƒ
2 3 4
7
R1
KBR
R2
C1
F-OSC
C2
KBR-480BK
100 pF
100 pF
C1
Figure 3:
4 Bit Microprocessor Clock
C2
Figure 4:
Test Circuit Spurious Response
VDD
T.P.
1kΩ
15 kΩ
VDD
1KΩ
18
1KΩ
19
33pF
PHASE
METER
RG = 50 Ω
CK0 2
RESONATOR
1M
COP420R
CK1 3
4
11
1
SWEEP OSC
33pF
IMPEDANCE
KBR-4.00MSA/MSB
.01
VDD
Figure 5:
Simulation Circuit
V1
ß = 20 LOG —— (DB)
V2
R - IN
R - OUT
CX
OSC-1
V1
OSCILLATOR
V2
RESONATOR
C1
6
OSC-2
C2
Ø=ØV2-ØV1
AVX/Kyocera Ceramic Resonators
APPLICATION AND TEST CIRCUITS continued
The design of an oscillation circuit requires an accurate choice of circuit components to ensure oscillation
within the specific voltage range of the IC (Figure 6). Semiconductor manufacturers’ data books categorize VH and
VL for both input and output requirements. The next stage
of a design can be driven from either the IC input or
output. Special attention should be paid to VIH and VIL or
VOH and VOL depending upon where the next stage comes
from the IC.
Oscillation frequency and amplitude depend upon the
values of the external load capacitors (C1, C2). These
Figure 6:
Oscillation Level
effects are illustrated in Figures 7, 8 and 9. When the
feedback ratio and the input oscillation amplitude are decreased too far, the circuit becomes vulnerable to external
noise and might oscillate spuriously with the external noise.
There are some cases when a high gain IC or one
with a wide non-linear range will give abnormal oscillation
from sub-vibration of the resonator. This can be prevented
by adding a damping resistor to decrease the feedback
ratio or by increasing the load capacitance values. The
spurious characteristics of typical AVX/Kyocera kHz and
MHz resonators are shown in Figures 10 and 11.
Figure 7:
Load Capacitor Effects
MAX
C1 – OSC. FREQ. SHIFT CHARAC. (C2: 100pF)
MIN
MIN
2
1
0
-1
-2
0
VL
C2 – OSC. FREQ. SHIFT CHARAC. (C1: 100pF)
∆F (kHz)
∆F (kHz)
VOLTAGE (V)
VH
100
200
300
400
2
1
0
-1
-2
0
500
100
200
300
400
500
C2 (pF)
C1 (pF)
TIME
MAX
Figure 8:
C2 Held Constant OSC Voltage Characteristics
Figure 9:
C1 Held Constant OSC Voltage Characteristics
OSCILLATOR VOLTAGE (V)
OSCILLATOR VOLTAGE (V)
VIH
5
VOH
VOL
0
VOH
5
VIH
VIL
0
VIL
VOL
200
300
C1(pF)
400
500
Figure 10:
kHz Spurious Response
100
300
C2(pF)
400
MS SERIES
KBR-2.00 MS
BK Series (KBR-455BK)
-10
-20
ATT (dB)
-30
-40
-50
MSA/MSB SERIES
KBR-3.58 MSA/MSB
0
0
-10
-10
-20
-20
-30
-40
-30
-40
-60
-50
-50
-70
-60
-60
-80
-70
2500
5000
FREQUENCY (kHz)
500
Figure 11:
MHz Spurious Response
0
ATT (dB)
200
ATT (dB)
100
7500
-70
3.0
6.0
9.0
FREQUENCY (MHz)
12.0
3.0
6.0
9.0
FREQUENCY (MHz)
12.0
7
KBR -Y Series Surface Mountable Ceramic Resonators
kHz Band SMT Formed Leads Ceramic Resonators
FEATURES
HOW TO ORDER
1)
2)
3)
4)
5)
KBR - 455 Y TR
Reflow solderable
Washable
Surface mountable
1000 pcs. per reel
Sold in increments
of 2000 pcs.
1
2
3
4
1
2
3 4
Type: (Kyocera Bulk Resonator)
Oscillation frequency:
380 to 1050 kHz
Resonator type:
Y = Surface mountable
Packaging:
TR = Tape and reel
ƒO: 380 to 1050 kHz
STRUCTURE
High Temperature Resin Case
Ceramic Element
Outer Terminal
SPECIFICATIONS (KBR-
Y)
Parameters
Fig. A
Frequency Range
Fig. B
Fig. C
380 to 430 kHz
440 to 525 kHz
600 to 655 kHz 795 to 815 kHz
960 to 1020 kHz
Frequency Tolerance
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
Resonant Impedance
20Ω Max
20Ω Max
50Ω Max
70Ω Max
100Ω Max
Anti-resonant Impedance
30kΩ Min
35kΩ Min
50kΩ Min
70kΩ Min
70kΩ Min
Temperature Characteristics
(-20 to +80°C)
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
C1
100pF
100pF
100pF
100pF
100pF
C2
470pF
100pF
100pF
100pF
100pF
Standard Oscillation
Frequency
400kHz
455kHz
480kHz
500kHz
600kHz
640kHz
800kHz
1000kHz
DIMENSIONS
Date Code
unit: mm (inch)
8
0.7
(.028)
Date Code
Frequency
0.3
(.012)
unit: mm (inch)
0.6
(.024)
Model Name
5.0
(.197)
2.5
(.098)
2.3
(.091)
0.6 (.024)
0.6 (.024)
5.0
(.197)
3.5
(.138)
0.3
(.012)
0.7
(.028)
0.7
(.028)
0.3
(.012)
9.0
(.354)
(.197)
Frequency
8.0
(.315)
0.7
(.028)
0.6 (.024)
9.0
(.354)
5.0
Fig. C
6.3
(.248)
3.5
(.138)
Frequency
8.5
(.335)
Fig. B
0.7
(.028)
Fig. A
Date Code
unit: mm (inch)
KBR -Y Series Surface Mountable Ceramic Resonators
kHz Band SMT Formed Leads Ceramic Resonators
TEST CIRCUIT
ƒO: 380 to 1050 kHz
SUGGESTED LAND PATTERNS
380 to 430 kHz
440 to 525 kHz
600 to 655 kHz
VDD
795 to 815 kHz
960 to 1050 kHz
+5VDC
2.4
(.094)
fosc
1MΩ
C1
C2
1.4
(.055)
IC: 4069 (Hex Inverter)
(MOTOROLA )
1.4
3.9 (.055)
(.154)
unit: mm (inch)
PACKAGING (KBR- Y TYPE)
TAPE DIMENSIONS – 380 TO 430 / 440 TO 525 / 600 TO 655 kHz
A
±0.2
6.7
B
±0.2
8.5
C
D
E
±0.2 ±0.2 ±0.3
8.7 11.25 16.0
F
±0.2
7.5
G
±0.1
1.75
H
±0.1
12.0
J
±0.1
4.0
K
±0.1
2.0
L
M
N
±0.1
±0.2
1.5 10max 4.8
P
±0.2
4.1
Q
R
S
±0.2
±0.2
4.3 .3max 1.7
T
±0.1
0.4
U
±0.2
1.9
L
M
N
±0.1
±0.2
1.5 10max 3.6
P
±0.2
2.9
Q
R
S
±0.2
±0.2
3.1 .3max 1.7
T
±0.1
0.4
U
±0.2
1.9
TAPE DIMENSIONS – 795 TO 815 / 960 TO 1050 kHz
A
±0.2
3.9
B
±0.2
5.5
C
±0.2
5.7
D
±0.2
8.55
E
±0.3
16.0
F
±0.2
7.5
G
±0.1
1.75
H
±0.1
8.0
J
±0.1
4.0
K
±0.1
2.0
Q
H
P
J
G
T
K
U
F
E
D
R
M
Note: Quantity per reel
equals 1000 pieces.
S
A
C
N
B
unit: mm
REEL DIMENSIONS – 380 TO 430 / 440 TO 525 / 600 TO 655 kHz
A
±1.5
330
B
±1.0
80
C
±0.5
13
D
±0.5
21
E
±0.5
2.0
R
1.0R
W
±2.5
17.5
T
B
±1.0
80
C
±0.5
13
D
±0.5
21
E
±0.5
2.0
R
1.0R
W
±2.5
17.5
B
3.0max
R
REEL DIMENSIONS – 795 TO 815 / 960 TO 1050 kHz
A
±1.5
250
E
C (Dia.)
D (Dia.)
T
2.5max
A
W
T
unit: mm
9
KBR -B, -BK, -F Series Ceramic Resonators
kHz Band Ceramic Resonators
ƒO: 190 to 1050 kHz
FEATURES
HOW TO ORDER
1) Optimum selection of oscillation
parameters possible according to
application
2) Highly reliable design with excellent environmental resistance
3) Standard frequency range of 190
kHz to 1050 kHz
4) Formed lead type also standardized for use in low profile devices
5) Packaged in bags of 500 pcs.
6) Sold in increments of 2000 pcs.
KBR - 455 BK TS
SPECIFICATIONS (KBRConfiguration
1
2
3
4
1 Type: (Kyocera Bulk Resonator)
2 Oscillation frequency:
190 to 1050 kHz
3 Resonator types:
B /BK = 190 to 680 kHz
F
= 795 to 1050 kHz
4 Lead style:
= Standard
TS = Single-in-line
TL = Formed lead
B/KBR-
BK/KBR-
F)
Fig. A
Fig. B
Fig. C
Fig. D
B
B
BK
B
BK
BK
BK
B
B
F
F
Frequency
Range
190 to
249 kHz
250 to
379 kHz
380 to
430 kHz
431 to
439 kHz
440 to
525 kHz
540 to
599 kHz
600 to
655 kHz
526 to
539 kHz
656 to
680 kHz
795 to
815 kHz
960 to
1050 kHz
Frequency
Tolerance
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
±0.5%
Resonant
Impedance
20Ω Max
20Ω Max
20Ω Max
20Ω Max
20Ω Max
20Ω Max
50Ω Max
20Ω Max
50Ω Max
70Ω Max
100Ω Max
Antiresonant
Impedance
25kΩ Min
30kΩ Min
30kΩ Min
30kΩ Min
35kΩ Min
35kΩ Min
50kΩ Min
35kΩ Min
50kΩ Min
70kΩ Min
70kΩ Min
C1
330pF
220pF
100pF
100pF
100pF
100pF
100pF
100pF
100pF
100pF
100pF
C2
470pF
470pF
470pF
470pF
100pF
100pF
100pF
100pF
100pF
100pF
100pF
Temperature
Characteristics
(-20 to +80°C)
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
±0.3%
(-40 to +85°C)
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
+0.3%
-0.5%
Standard
Oscillation
Frequency
200kHz
300kHz
400kHz
—
600, 640kHz
—
680kHz
800kHz
1000kHz
Blue
Blue
Blue
Blue
Blue
Blue
Blue
Green
Green
Type
Case
Color
Fig. E
Fig. F
455, 480, 500kHz 540, 560kHz
Blue
Blue
TEST CIRCUIT
VDD
+5VDC
1MΩ
C1
C2
C1, C2 : See specifications
IC : 4069 (Hex inverter)
(MOTOROLA)
10
Fig. G
KBR -B, -BK, -F Series Ceramic Resonators
kHz Band Ceramic Resonators
ƒO: 190 to 1050 kHz
DIMENSIONS
Fig. B
250 to 379 kHz (B-Type)
3.5
(.138)
K
Model Name
1.0
(.039)
8.0
(.315)
1.6
(.063)
(.031)
7.5
(.338)
10.0
(.394)
8.5
(.335)
0.6
Fig. E
440 to 525/540 to 655 kHz
0.6
0.15
(.024)
(.006)
5.0
5.0
5.0
5.0
(.197)
(.197)
(.197)
(.197)
[TS]
unit: mm (inch)
unit: mm (inch)
0.8
(.031)
0.15
(.006)
(.024)
0.20
(.008)
0.8
1.6
(.063)
0.8
(.031)
1.5
(.059)
0.20
(.008)
0.8
(.031)
Date Code
Model Name
1.5
(.059)
8.0
(.315)
13.5
(.531)
9.0
(.354)
16.5
(.650)
1.0
(.039)
Date Code
K
Date Code
Model Name
3.5
(.138)
Date Code
Model Name
8.5
(.335)
4.5
(.177)
K
Fig. D
431 to 439 kHz (B-Type)
8.5
(.335)
11.2
(.441)
3.8
(.150)
3.8
(.150)
14.2
(.559)
Fig. C
380 to 430 kHz (BK-Type)
3.5
(.138)
Fig. A
190 to 249 kHz (B-Type)
[TS]
unit: mm (inch)
unit: mm (inch)
Fig. F
Fig. G
526 to 539/656 to 680 kHz (B-Type) 795 to 815/960 to 1050 kHz (F-Type)
(Types: BK, AK, HK, AHK)
Date Code
9.0
(.354)
Model Name
(.024)
0.8
(.031)
3.5
(.138)
0.6
0.15
(.006)
Date Code
0.15
(.006)
0.2
0.6 (.024)
(.008)
1.5
(.059)
1.5
(.059)
0.6 (.024)
0.8
(.031)
4.5
(.177)
3.5
(.138)
0.8
(.031)
5.0
(.197)
Date Code
2.3
(.091)
8.0
(.315)
8.0
(.315)
Model Name
3.5
(.138)
3.5
(.138)
Model Name
6.3
(.248)
8.0
(.315)
5.0
(.197)
4.2
(.165)
5.0
(.197)
2.5
(.098)
unit: mm (inch)
unit: mm (inch)
unit: mm (inch)
LEAD FORMATIONS
Lead
Type
Lead Shape
Frequency Range
B–Type
BK–Type
F–Type
—
380 to 430 kHz
440 to 525 kHz
540 to 655 kHz
795 to 815 kHz
960 to 1050 kHz
Single in-line is standard for F series
TS
TL
A
B
250 to 379 kHz
431 to 439 kHz
526 to 539 kHz
656 to 680 kHz
A*
3.0
4.5
4.5
4.5
B*
3.0
6.0
6.0
6.0
380 to 430 kHz
440 to 525 kHz
540 to 655 kHz
A*
3.5
3.5
3.5
B*
5.0
5.0
5.0
795 to 815 kHz
960 to 1050 kHz
A*
1.9
1.9
B*
1.9
1.9
*Dimensions in mm.
11
KBR Special Series Ceramic Resonators
kHz Band Ceramic Resonators
SPECIAL RESONATORS
Application
Model No.
KBR-503.5AKTS1
KBR-503.5AKTS12
KBR-503.5AKTS16
KBR-503.5AKTS2
KBR-503.5AKTS3
KBR-503.5AKTS4
KBR-503.5AKTS5
KBR-500AKTS1
KBR-500AHKTS2
KBR-503.5AHKTS2
Horizontal
synchronous oscillator
control circuit of TV set
Horizontal synchronous
detection circuit of VCR
KBR-457HKTS
Oscillation
Frequency
504.5±2.0kHz
504.5±2.0kHz
501.7±2.0kHz
503.5±2.0kHz
503.5±2.0kHz
525.6±2.0kHz *1(fr)
516.4±2.0kHz*1(fr)
500.0±2.0kHz
500.0±1.5kHz
503.5±1.5kHz
18.950kHz±38Hz
Variable
Frequency Range
±15kHz min.
Resonant
Impedance
Anti-resonant
Impedance
Temperature
Characteristics
Dimensions
(page 11)
IC
LA7620 (SANYO)
LA7650(SANYO)
LA7680(SANYO)
µPC1400C(NEC)
µPC1401CA (NEC)
±12.8kHz min.
30Ω max.
±15kHz min
52±10kHz *2(∆ f)
51±10kHz *2(∆ f)
±16kHz min.
—
±0.5% max. (-20°C~+80°C)
Fig. E
M51307SP (MITSUBISHI)
—
20Ω max.
70kΩ min.
17.0kHz min.
*2(∆ f)
20Ω max.
70kΩ min.
KBR-457HKTS1
FM stereo MPX
KBR-912F102
KBR-912F103
38kHz min.
912kHz±0.3%
100Ω max.
30kΩ min.
KBR-912F104
*2(∆ f)
KBR-912F108
KBR-450AHKTS5
450.0±0.5kHz *1(fr)
KBR-450AHKTS8
450.0±0.8kHz *1(fr)
Detection of search stop KBR-450AHKTS1
450.0±1.0kHz *1(fr)
9.0±2.0kHz
—
30Ω max.
signal of electronic tuner KBR-459AHKTS5
459.0±0.5kHz *1(fr)
*2(∆ f)
KBR-459AHKTS8
459.0±0.8kHz *1(fr)
KBR-459AHKTS1
459.0±1.0kHz *1(fr)
RF modulator for
KBR-500AHKTS15
500.0±1.5kHz
20Ω max.
70kΩ min.
—
PAL system
KBR-500AHKTS3
500.0±1.5kHz
KBR-491.5BKOL2
491.5kHz±0.3%
20Ω max.
35Ω min.
FDD motor
KBR-983FOL1
983kHZ±0.3%
100Ω max.
70kΩ min.
—
control circuit
KBR-610.2BKOL4
610.2kHz±0.3%
50Ω max.
50kΩ min.
KBR-460.8BK4
460.8kHz±0.3%
20Ω max.
35kΩ min.
KBR-480BKTS3
480kHz±0.3%
20Ω max.
35kΩ min.
Telephone unit
KBR-480BKTS-TM1
480kHz±0.3%
—
KBR-960F3
960kHz±0.3%
100Ω max.
70kΩ min.
*1: fr=resonant frequency, *2: f=fa-fr (fa=anti-resonant frequency), *3: When used in conjunction with special stereo
±0.6% max. (-20°C~+80°C)
Fig. E
±0.2% max. (-15°C~+75°C)
Fig. E
—
Fig. G
µPC1403CA (NEC)
LA2710LA7212
LA7215 (SANYO)
LA3400N,LA3401
LA3410,LA3430 (SANYO)
LA3400 (SANYO)
TA2080F (TOSHIBA)
TA2046FN (TOSHIBA)
LA1867M(SANYO)
LA1780M(SANYO)
±0.5% max. (-20°C ~ +60°C)
±0.8% max. (-20°C ~ +60°C)
Fig. E
±0.5% max. (-20°C ~ +60°C)
—
±0.8% max. (-20°C ~ +60°C)
±0.3% max. (-20°C ~ +80°C)
Fig. E
±0.3% max. (-20°C ~ +80°C)
—
BA7004 (Rohm)
LA7053 (SANYO)
HA13440MP(HITACHI)
HA13468MP(HITACHI)
M51785(MITSUBISHI)
BA6472 (Rohm)
TC31018P(TOSHIBA)
TMP47C26N(TOSHIBA)
TMP47C456AF(TOSHIBA)
Fig. E
±0.3% max. (-20°C~ +80°C)
Fig. G
MPX IC’s.
APPLICATION CIRCUITS
VDD
(4.5V to 6.5V)
Extal
Xtal
5
6
VDD (4V to 6V)
20
VDD
VSS
14
SANYO
LM641BF
10 11
NEC
µPD7564CS
8
20
9
1MΩ
220pF
220pF
220pF
220pF
MICROCOMPUTER
MICROCOMPUTER
24 21
MITSUBISHI
23 53
TOSHIBA T6668S
2
9 10
AUDIO REC/PLAY
1
6
CONTROL VOLTAGE
TERMINAL
330Ω
OSCILLATION
FREQUENCY
4.7µF
(1/32)
22
20
17
LA7620 (SANYO)
16
18 19
28
OSC
IN
OSC
OUT
7
8
330Ω
100pF 100pF
0.01
µF
7
6.8kΩ
150pF
6
150pF
KBR–480BK3
TONE DIALER
1.8kΩ
8
VDD (+12V)
+
- 10µF
7
28 15 14 1
HITACHI HA13432MP
21 20 19 18 17 16 26 2 3
680Ω
KBR–503.5AK1
PULSE DIALER
3 15
47pF
100
+ µF
-
KBR–480BK
12
5
1
0.033µF
+B
(+12V)
VDD (5V)
M50142P
12 13
REMOTE CONTROL TRANSMITTER
MOSTEK
3
VDD (1.5V to 5V)
1 2 9 17
TOSHIBA T031018P
100pF
MK50981(N)/50982(N)
14
MICROCOMPUTER
KBR–455BKTLR
KBR–480BKTLR
KBR–640BK
VDD COL1 VSS
3
100pF
100pF
ROW 1
150pF
300kHz to 500kHz
Type B/BK Resonator
VDD (3V)
VDD (4V to 6V)
100pF
270pF
KBR–500BK
KBR–640BK
53
VDD
(-9V)
220Ω
KBR–400BK
42
T1
18
2100/2300/
VSS
2170/2370
OSC1
OSC2 VDD
38
36
37
3.3KΩ
56KΩ
VDD
(+12V)
680Ω
680Ω
47pF
VDD
(+12V)
KBR–614.4BK4
TV HORIZ SYNC
FDD MOTOR
PBRC -A Series Chip Resonators
MHz Band SMT Resonators
ƒO: 2.00 to 8.00 MHz
FEATURES
HOW TO ORDER
1) High reliability chip resonator in
a ceramic case which can be
reflow soldered and washed
2) Ultra-miniature size is suitable for
compact equipment and high
mounting density
3) Rectangular shape allows easy
“pick and place” operation
4) 2000 pcs. per reel
5) Sold in increments of 2000 pcs.
PBRC - 4.00 A R
1
2
3
4
1
2
3 4
Type: (Piezo Bulk Resonator Chip)
Oscillation frequency (MHz)
Resonator type:
A = Without capacitor
Packaging:
R = Tape and reel
STRUCTURE
Ceramic Case
Ceramic Element
Conductive Paste
Terminations: Nickel
Barrier with Gold Flash
Electrode
Alumina
Ceramic Substrate
SPECIFICATIONS (PBRC- A)
Frequency Range
2.00 to 8.00 MHz
Frequency Tolerance
±0.5%
Resonant Impedance
200Ω Max at 2.00~2.90MHz
100Ω Max at 3.00~3.57MHz
30Ω Max at 3.58~8.00MHz
Temperature Characteristics
(-20 to +80°C)
±0.3%
RECOMMENDED LAND PATTERN FOR PBRC- A
STANDARD TEST CIRCUIT
(PBRC-
5.0mm
(.197)
A)
VDD = 5.0V
14 MC14069UB
(MOTOROLA)
1 2 3 4
7
4.0mm
(.157)
R
1.0MΩ
1.7mm
1.7mm
(.067)
(.067)
OUT
GND
Resonator
C1
33pF
C2
33pF
DIMENSIONS
*t
7. 2
(.283)
2-1.2 (reference)
(.079-.047)
3
3.0
(.118)
6-R0.2
(.236-R0.008)
1
0.6
(.024)
3.4
(.134)
Date Code
2.6
(.102)
Oscillation Frequency
7.4
(.291)
5.0
(.197)
1, 3: Input, Output (no polarity)
•t=PBRC A Series: 2.0 max.
Tolerances = ±0.3mm
Unit: mm (inch)
13
PBRC -B, -D Series Chip Resonators
Built-in Capacitor MHz Band SMT Resonators
FEATURES
HOW TO ORDER
1) Built-in load capacitor
2) High reliability chip resonator
in a ceramic case which can
be reflow soldered and washed
3) Ultra-miniature size is suitable
for compact equipment and
high mounting density
4) Rectangular shape allows
easy “pick and place” operation
5) 2000 pcs. per reel
6) Sold in increments of 2000 pcs.
PBRC - 4.00 B R
ƒO: 2.00 to 36.00 MHz
1
2
3
4 5
Type: (Piezo Bulk Resonator Chip)
Oscillation frequency (MHz)
Resonator type:
B = With capacitor (2.00~20.00MHz)
D = With capacitor (20.01~36.00MHz)
Packaging:
R = Tape and reel
STRUCTURE
Ceramic Case
Frequency tolerance:
= ±0.5% (2.00~8.00MHz)
Ceramic Element
07 = ±0.7% (8.01~20.00MHz)
Conductive Paste
= ±0.5% (20.01~36.00MHz)
1
2
3
4
5
Terminations: Nickel
Barrier with Gold Flash
SPECIFICATIONS (PBRCSeries Type
Frequency Range
Load Capacitor
Frequency Tolerance
Resonant Impedance
B/PBRC-
B
2.5
(.098)
±0.1%
±0.3%
STANDARD TEST CIRCUIT
8.01 ~ 36.00 MHz
(PBRC- D)
VDD = 5.0V
(PBRC- B)
VDD = 5.0V
2.5
(.098)
14
14 MC14069UB
(MOTOROLA)
1 2 3 4
7
R
1.0MΩ
1.5
(.059)
D
20.01~36
10 pF (±10)
±0.5%
150 Ω Max.
150 Ω Max.
150 Ω Max.
STANDARD TEST CIRCUIT
2.00 ~ 8.00 MHz
4.0
(.157)
1.7
(.067)
8.01 to 20.00 MHz
10 pF (typ.)
±0.7%
150 Ω Max.
150 Ω Max.
150 Ω Max.
±0.3%
RECOMMENDED LAND
PATTERN FOR PBRC- B/D
1.7
(.067)
Alumina
Ceramic Substrate
D)
2.00 to 8.00 MHz
33 pF (typ.)
±0.5%
2.00-2.90MHz
200Ω max.
3.00-3.57MHz
100Ω max.
3.58-8.00MHz
30Ω max.
Temperature Characteristics
(-20 to +80°C)
Electrode
MC74HC04
(MOTOROLA)
1 2 3 4
7
GND
OUT
R
1.0MΩ
C2
33pF
GND
Resonator
Resonator
C1
33pF
OUT
C1
10pF
C2
10pF
Unit: mm (inch)
PAD CONNECTION
DIMENSIONS
0.6
(.024)
*t
7. 2
(.283)
1
3
3
3.0
(.118)
2.5
(.098)
7.4
(.291)
14
3-1.2 (reference)
(.118-.047)
3.4
(.134)
Date Code
2.6
(.102)
Oscillation Frequency
6-R0.2
(.236-R0.008)
1
2
2.5
(.098)
1, 3: Input, Output (no polarity)
2: GND
*t=PBRC B Series: 2.0 max.
PBRC D Series: 1.6 max.
Tolerances = ±0.3mm
Unit: mm (inch)
1. Input
2. Ground
3. Output
2
Note: Pads 1 and 3 are interchangeable.
Tape & Reel Packaging
Surface Mountable Chip Resonators PBRC -A, -B, -D Types
2000 pieces per reel with 10 positions open at beginning and end of reel. Leader will be 200mm maximum.
TAPE DIMENSIONS
A
±0.2
3.8
B
±0.2
7.8
D
±0.3
16.0
E
±0.1
7.5
F
±0.1
1.75
G
±0.1
8.0
H
±0.1
4.0
φK
±0.1
1.5
J
±0.1
2.0
M
R
10°max 0.3max
W
±0.2
2.1
T
±0.1
0.3
φL
±0.05
1.55
H
J
T
A
φK
F
R
E
D
B
M
W
G
M
R
φL
R
Units:mm
REEL DIMENSIONS
A
255
±1.0
B
80
±0.5
C
13
±0.5
D
25
±0.8
E
2
±0.5
R
1.0R
W
17.5
±1.5
T
2
±0.5
E
C (Dia.)
D (Dia.)
B
R
W
A
T
PACKING METHOD
Blank
Pocket
Loaded
Pocket
Units:mm
TEST CONDITION OF PEELING STRENGTH
Blank
Pocket
Leader
Top Tape
10°
10 Pitches
Minimum
MARKING
Marking of Reel
a). Type Name
b). Lot No.
c). Quantity
d). Vendor Name
Marking of Exterior Package
a). Type Name
b). Lot No.
c). Quantity of Reel
d). Shipping Date
e). Vendor Name
Carrier Tape
10 Pitches 200mm
Minimum Maximum
Pulling Direction
REFLOW PROFILE
Suggested Reflow Profile
KBR-Y Series
PBRC Series
230°C±5°C max.
200°C
150°C
100°C
1 hour
before
meeting all
electrical
specs.
60 sec.
60 sec.
20 sec.
max.
Gradual Cooling
15
Capacitor Built-In Type Chip
MHz Band Ceramic Resonators - SSR-B Series
FEATURES
HOW TO ORDER
1) World’s smallest (2.1x3.2x1.5 mm)
2) High density mounting possible
3) Wide frequency range in same
case size
4) 2000 pieces per reel
5) Sold in increments of 2000 pieces
SSR 33.86 B R
1
2
3 4
Type: (Super Small Resonator)
Oscillating frequency
Resonator type: B = With capacitor
Packaging: R = Tape and reel
1
2
3
4
SPECIFICATIONS
Frequency
Range
Frequency
Tolerance
Resonant
Impedance
Temperature
Stability
(-20~80°C)
16~60MHz
±0.5%
100 max.
±0.3%
IC
Popular
Frequencies
MC74HCU04
(MOTOROLA)
16, 25, 27, 29, 33.86, 40
DIMENSIONS
0.7
(.028)
1.5±0.20
(.059±.008)
1.4
(.055)
KC
0.7±0.10
(.028±.004)
1.8
(.071)
33.86
2.1±0.20
(.083±.008)
0.6
(.024)
ø0.35
1.2
(.047)
1.2
(.047)
3.2+0.3/-0.2
(.126+.012/-.008)
TEST CIRCUIT
Units: mm (inches)
RECOMMENDED LAND PATTERN
0.7
(.028)
VDD
0.7
(.028)
0.7
(.028)
1.2
(.047)
fosc
R
3
3.0
(.118)
1
1.2
(.047)
VDD : 5V
R : 1M
IC : MC74HCU04
1.2
(.047)
2
1.2
(.047)
PACKAGING: TAPE and REEL
H
øK
T
A
Symbol
A
B
D
E
F
G
H
Dimension
2.4
3.6
8.0
3.5
1.75
4.0
4.0
Symbol
J
K
L
M
R
W
T
Dimension
2.0
1.5
1.1
5° max.
0.3 max.
1.8
8.0
M
B
R
D
E
R
F
J
G
øL
M
R
W
R
Unit: mm (inches)
16
KBR -M, -MS, -MSA, -MSB Series Ceramic Resonators
MHz Band Ceramic Resonators
ƒO: 2.00 to 13.00 MHz
FEATURES
HOW TO ORDER
1) Ultracompact, lightweight
design
2) Resistant to damage from
impact and vibration
3) Excellent temperature
stability (±0.3%)
4) Low cost
5) Bulk packaged 500 pieces
per bag or 2000 pieces
per reel
6) Sold in increments of 200
pieces
KBR - 4.00 MSA TR
1
2
3
4
1
2
3
4
Type: (Kyocera Bulk Resonator)
Oscillation frequency (MHz)
Resonator type:
MS = 2.00 to 3.57 MHz
MSA = 3.58 to 8.00 MHz (Water resistant)
MSB = 3.58 to 6.00 MHz ("No-Clean" Process only)
M
= 6.01 to 13.00 MHz
Packaging:
TR = Tape and reel
= Bulk
SPECIFICATIONS (KBR- MS/KBR- MSA/KBR- MSB/KBR- M Series)
Series
Dimension
Oscillation Frequency
Frequency Tolerance
Resonant Impedance
Temperature Characteristic
(-20 to +80°C)
MS
Fig. A
2.00 to 3.57 MHz
±0.5%
100Ω Max
MSA, -MSB
Fig. B
3.58 to 8.00 MHz
±0.5%
30Ω Max
M
Fig. C
6.01 to 6.99 MHz
±0.5%
40Ω Max
M
Fig. D
7.00 to 13.00 MHz
±0.5%
40Ω Max
±0.3%
±0.3%
±0.5%
±0.5%
Fig. A
Fig. B
Fig. C
Fig. D
DIMENSIONS
Date of
production
KBR
MS
5.0
(.197)
7.5 Max.
(..278)
(.394)
5.0
10.0 Max.
5.0
(.197)
(.197)
Unit: mm (inch)
Unit: mm (inch)
KBR-3.58MSA - 200 series for Telephone D.T.M.F. Applications
KBR-3.58MSA-201
KBR-3.58MSA-202
KBR-3.58MSA-203
KBR-3.58MSA-204
KBR-3.58MSA-205
KBR-3.58MSA-206
KBR-3.58MSA-207
Frequency
Frequency
Tolerance
3.5795MHz
+0 -0.25%
+0.15 -0.10%
+0.30 -0.05%
+0.45 +0.20%
+0.60 +0.35%
-0.30 -0.55%
-0.15 -0.40%
0.2
(.008)
0.2
(.008)
Unit: mm (inch)
P/N
5.0 Max.
(.197)
5.0 Max.
(.197)
0.2
(.008)
0.2
(.008)
5.0
(.197)
5.0
(.197)
5.0 Max.
(.197)
1.2
(.047)
0.6
(.024)
7 Max.
5.0 Max.
(.197)
Date of
production
KBR
M
5.0
5.0
(.197)
Frequency
1.2
(.047)
0.6
(.024)
(.394)
1.2
(.047)
0.6
(.024)
KBR
M
Date of
production
(.197) (.276)
Frequency
10.0 Max.
10.0 Max.
(.394)
5.0
Frequency
(.197)
Date of
production
12.0 Max.
(.472)
Frequency
Resonant
Resistance
Temperature
Stability
(-20 to +80°C)
Unit: mm (inch)
TEST CIRCUIT
VDD
Dimensions
f osc
R
RESONATOR
30Ω Max
±0.3%
Fig. B
C1
C2
VDD : 5V (2.0~8MHz)
12V (8.1~13MHz)
only M series
R : 1MΩ
C1,C2: 33pF
IC : 4069 (HEX INVERTER
(MOTOROLA)
17
KBR -MY Series Ceramic Resonators
High Frequency MHz Band Ceramic Resonators
FEATURES
HOW TO ORDER
1) High frequency resonator to
match high-speed needs
2) Faster start-up time as
compared to quartz crystals
3) High durability
4) Bulk packaged 500 pieces
per bag or 2000 pieces per
reel
5) Sold in increments of 2000
pieces
KBR - 16.00 MSA TR
ƒO: 13.01 to 36.00 MHz
1
2
3
4
1 Type: (Kyocera Bulk Resonator)
2 Oscillation frequency (MHz)
3 Resonator type:
MY = CMOS IC
MSA= Standard
4 Packaging:
= Bulk
TR = Tape and reel
SPECIFICATIONS (KBR- MY/KBR- MSA)
Series Type
KBR -MY
KBR -MSA
13.01 to15.99 MHz
16.00 to 36.00
Frequency Tolerance
±0.5%
±0.5%
Resonant Impedance
30 max.
30 max.
±0.3% max.
±0.3% max.
Frequency Range
Temperature Characteristics
(-20 to +80°C)
DIMENSIONS
10.0 Max.
(.394)
KBR-MSA Type
5.0 Max.
(.197)
1.2 (.047)
0.6 (.024)
5.0
5.0
(.197)
5.0
0.2
(.008)
(.197)
Date of
production
5.0 9 Max.
5.0 10.0 Max.
Date of
production
10.0 Max.
(.394)
(.197) (..394)
Frequency
R
Frequency
(.197) (.354)
KBR-MY Type
0.2
(.008)
(.197)
Unit: mm (inch)
Unit: mm (inch)
STANDARD TEST CIRCUIT
KBR-MY Type
KBR-MSA Type
VDD = 5.0V
MC74HC04
(MOTOROLA)
1 2 3 4
VDD
14
f osc
7
R
OUT
RESONATOR
GND
R
1.0MΩ
Resonator
C1
33pF
18
C2
33pF
C1
C2
IC : MC74HCU04
VDD: 5V
Rf: 1MΩ
C1,C2: 10pF
KBR -MKC, -MKD, -MKS Series Ceramic Resonators
Built-in Capacitor MHz Band Ceramic Resonators ƒO: 3.45 to 8.00 MHz
16.00 to 36.00 MHz
FEATURES
HOW TO ORDER
1) Built-in load capacitance
2) Simplified circuit
3) Reduced parts cost
4) Reduced mounting cost
5) High density mounting
5) Bulk packaged 500 pieces
per bag or 2000 pieces
per reel
7) Sold in increments of
2000 pieces
KBR - 4.00 MKC TR
1
2
3
4
SPECIFICATIONS (KBR-
1
2
3
4
Type: (Kyocera Bulk Resonator)
Oscillation frequency (MHz)
Resonator type:
MKC = “No-Clean” Process only
MKD = Water resistant
MKS = Standard
Packaging:
= Bulk
TR = Tape and reel
MKC/KBR-
Series Type
MKD/KBR-
MKS)
KBR -MKC, -MKD, -MKS
KBR -MKD
3.45 to 8.00 MHz
16.00 to 36.00
Frequency Tolerance
±0.5%
±0.5%
Resonant Impedance
30
30
±0.5%
±0.3%
Frequency Range
Temperature Characteristics
(-20 to +80°C)
DIMENSIONS
0.5
(.020)
2
4.00
1.2
(.047)
0.3
(.012)
0.5
(.020)
1
3
2
10.0 max
(.394)
16.00
0.3
(.012)
3
0.5
(.020)
1
2.5 2.5
(.098) (.098)
2.5 2.5
(.098) (.098)
MKD TYPE (16.0 to 36.0MHz)
5.0 max
(.197)
5.0±1.0 8.0 max
(.197) (.315)
4.00
1
10.0 max
(.394)
5.0 max
(.197)
5.0 6.0 max
(.197) (.236)
10.0 max
(.394)
MKD TYPE (3.45 to 8.00MHz)
2
5.0 max (.197)
5.0 9.5 max
(.197) (.236)
MKC, MKS TYPES
0.3
(.012)
3
2.5 2.5
(.098) (.098)
1, 3 Input, Output
2 Ground
(No polarity)
Unit: mm (inch)
Tolerance ±0.2mm unless otherwise specified
TEST CIRCUIT
PIN CONNECTION (No Polarity)
VDD 5V
1
fosc
3
R
1
3
R : 1MΩ
IC : MC14069...3.45 to 8.00
MC74HCU04...16.00 to 36.00
C1
2
C2
C1, C2: 33pF (Typ.)...3.45 t0 8.00
10pF (Typ.)...16.00 to 25.00
5pF (Typ.)...25.01 to 36.00
1. Input
2. Ground
3. Output
2
Note: Pins 1 and 3
are interchangeable
19
Tape & Reel Packaging
MHz Ceramic Resonators
TAPE AND REEL PACKAGING
HOW TO ORDER
• 2000 pieces per reel
• Min. of 3 open positions at the
beginning and end of tape
KBR 1
2
3
4
AMMO PACK
• 2000 pieces per package
• A minimum of 38.1mm or three
positions shall be open at beginning
and end of tape
• Each fold shall be 317.35mm in
length or the equivalent of twenty-five
positions
TR
1
2
3
4
Type: (Kyocera Bulk Resonator)
Oscillation frequency (MHz)
Resonator type = M/MS/MSA/MSB/MY/MKC/MKD
Packaging:
TR = Tape and reel
TF = Ammo pack
TAPE DIMENSIONS
-M, -MS, -MSA, -MSB, -MY TYPES
-MKC, -MKD, -MKS TYPES
5.0Max
12.7±0.3
9.0±0.5
0.7
±0.5
20.0
+0.8
0.2
3.85
3.0Min.
9.0±0.5
0.3 ~ 0.5
18.0+1.0
-0.5
+0.5
+0
6.0Min 0
±0.5
20.0
0.5±0.1
✷
1.2
2.5 2.5
ø4.0
12.7±0.3
* Varies per actual part dimensions, see pages 17 and 18.
0.5±0.1
0.3 ~ 0.5
0.7
18.0+1.0
-0.5
✷
3.0Min.
+0.8
0.2
3.85 5.0
0±2.0
10.0
+0.5
+0
✷
1.2
5.0Max
6.35±1.3 12.7±0.3
0±2.0
6.0Min 0
6.35±1.3 12.7±0.3
ø4.0
* Varies per actual part dimensions, see page 19.
unit: mm
REEL DIMENSIONS
unit: mm
AMMO PACK DIMENSIONS
Ø30
270mm
52mm
Ø360
44mm
55mm
m
340m
20
Surface Acoustic Wave Resonators
GENERAL DESCRIPTION
The fundamental wave oscillation of AVX/Kyocera Surface
Acoustic Wave (SAW) Resonators eliminates spurious
response, which leads to a reduction in the number of
components used for spurious frequency suppression. This
feature, in addition to the good shock resistance
characteristics of the SAW resonator, helps to simplify the
assembly process and promotes higher stability.
Kyocera Surface Acoustic Wave (SAW) resonators are ideal
for use in RF modulators for videotape recorders, video
discs and cable television. These unique SAW resonators
contain two channels in one package. Custom design features
can be manufactured for specific applications.
TEST CIRCUIT
R1 = 50Ω
S.G.
R2 = 50Ω
VM
R1 & R2 are input/output impedance of measuring equipment.
ENVIRONMENTAL CHARACTERISTICS
TEST
High Temperature Storage Test
Low Temperature Storage Test
Humidity Loading Test
Solderability Test
Thermal Shock Test
Shock Test
CONDITION
+85±2°C
-40°±2°C
40±2°C, 90%RH, 6VDC
260±10°C, 10±1 sec.
-20°C 30 min., 70°C 30 min. 5 cycles
90G: 6 msec XYZ direction totally 18 times
21
Surface Mount SAW Resonators
PAR Series
FEATURES
HOW TO ORDER
1)
2)
3)
4)
5)
6)
PAR S 433.92 K 04 R
Frequency range: 300 to 450 MHz
1 port type SMD resonator
Small size (5.5X3.8mm)
Low profile (1.5mm max)
SMT ceramic package
Excellent temperature characteristics:
+100ppm ~ -250ppm (-40 ~ 85°C)
7) 2000 pieces per reel
8) Sold in increments of 2000 pieces
1
2
3
4 5 6
SMT SAW Resonator
Type: C = Glass seal, S = Seam weld
Frequency
Marking code (please see table)
Freq. Tolerance or custom spec.
00 : ±250KHz
01 :±200KHz
02 : ±150KHz
03 :±100KHz
04 : ±75KHz
10 :Tolerance
11 : Custom spec.
Package: R=Tape & reel
1
2
3
4
5
6
ELECTRICAL CHARACTERISTICS
Resonant
Frequency (MHz)
Resonant
Loss (dB)
Parallel
Capacitance (pF)
PARS 304.45LXXR
304.45
2.5 max.
4.0 max.
PARS 310.00KXXR
310.00
2.5 max.
4.0 max.
2.5 max.
3.2 max.
314.50
2.5 max.
3.2 max.
PARS 315.00KXXR
315.00
2.5 max.
3.2 max.
PARS 320.65KXXR
320.65
2.5 max.
3.2 max.
PARS 423.22KXXR
423.22
2.5 max.
3.2 max.
PARS 432.92KXXR
432.92
2.5 max.
3.2 max.
PARS 433.42LXXR
433.42
2.5 max.
3.2 max.
PARS 433.92KXXR
433.92
2.5 max.
3.2 max.
DIMENSIONS
1.25
1.00
Resonant
Frequency (MHz)
304.45
2
1.9±0.2
1
3.8±0.2
4-R 0.15
4
3
2.75±0.2
4-R 0.15
1.00
1.25
Marking Code
304 L
310.00
310 K
Pin
Function
314.00
314 K
➀
➁
➂
➃
Hot
NC
Hot
NC
314.50
314 L
315.00
315 K
320.65
320 K
423.22
423 K
432.92
432 K
433.42
433 L
5.5±0.2
BLOCK DIAGRAM (Example application)
Transmitter (Tx)
Receiver (Rx)
Heterodyne Receiver
SAW
Filter
OSC Circuit
MPU
I.D. Signal
22
1.5
MARKING CODE
4-1.0±0.2
4-0.6±0.2 4-1.0±0.2
1.5
314.00
PARS 314.50LXXR
1.25 0.15
PARS 314.00KXXR
0.15 1.25
Part Number
RECOMMENDED
LAND PATTERN
SAW
Resonator
240MHz
~450MHz
0.5MHz
Filter
SAW
Resonator
240MHz
~450MHz
DET
Signal
Out
Monthly Code
315K C
(4 digits Frequency Marking)
KAR Series SAW Resonators
MHz Band SAW Resonators
ƒO: 46 to 315 MHz
FEATURES
HOW TO ORDER
1) 2 channels encased in one
package
2) Utilization of fundamental
wave oscillation suppresses
spurious response
3) No adjustment of peripheral
circuits required
4) Good vibration and shock
resistance
5) Superior temperature stability
6) Reduces the number of
peripheral components
KAR-91-CS
1
2
3
1 Type: (Kyocera Acoustic Resonator)
2 Oscillation frequency (MHz)
3 Resonator type:
CS, CT = Small package – Fig. B
CD, CB = Standard package – Fig. A
CK, CL = Round shape package – Fig. C.
CF, CG = Small square package – Fig. D.
STRUCTURE
Die Bond
Bonding Wire
Can
Al Electrode
Substrate
Stem
Hermetic Seal
Leads
SPECIFICATIONS (KAR- - )
Part No.
Channel*
KAR-55CT
2
U-3
KAR-83CB
5
U6
KAR-55CS
3
W4
KAR-86CB
3
A4
KAR-85CB
4
O5
KAR-61CT
3
U4
KAR-77CS
3
O4
KAR-91CS
J-
KAR-211CS
U-13
1
2
Resonant
Frequency (MHz)**
55.24±0.08
61.24±0.08
77.24±0.08
83.24±0.08
55.24±0.08
62.24±0.08
86.24±0.08
95.24±0.08
85.24±0.08
93.24±0.08
61.24±0.08
67.24±0.08
77.24±0.08
85.24±0.08
91.24±0.08
97.24±0.08
211.24±0.15
Resonant
Loss (dB)
6.0 MAX
4.0 MAX
5.0 MAX
3.0 MAX
3.0 MAX
5.0 max
4.5 MAX
3.0 MAX
2.7 MAX
Parallel
Capacitance (pF)
3.6±1
3.7±1
4.5±1
4.2±1
4.8±1
4.8±1
4.2±1
4.0±1
4.2±1
4.0±1
4.4±1
2.8±1
3.1±1
2.8±1
4.0±1
4.0±1
Temperature Stability
-10°C to +60°C (ppm/°C)
Dimension
±8
±7
±8
Figure A
±5
±5
±8
±8
Figure B
±5
3.0±1
±8
Parallel
Capacitance (pF)
Temperature
Characteristics (ppm/°C)
Dimension
±8 Max.
Fig. B
*J: Japan U: USA W: Germany A: Australia O: East Europe
**Other frequencies available on request.
SPECIFICATIONS (for Keyless Entry)
Part No.
Channels
KAR-303CS
KAR-304CS
KAR-310CS
KAR-314CS
KAR-314CT
KAR-315CS
KAR-320CS
KAR-345CS
KAR-359CS
KAR-417CS
KAR-418CS
KAR-423CS
KAR-432CS
KAR-433CS
KAR-433CT
KAR-479CS
JPN
US
US
US
US
US
JPN
US
US
UK
UK
EU
EU
EU
EU
JPN
Resonant
Frequency (MHz)
303.875±0.25
304.30±0.25
310.00±0.25
314.00±0.25
314.50±0.25
315.00±0.25
320.65±0.25
345.00±0.25
359.90±0.25
417.50±0.25
418.00±0.25
423.22±0.25
432.92±0.25
433.92±0.25
433.42±0.25
479.50±0.5
Resonant
Loss (dB)
4.0 Max.
2.5 Max.
3.2 Max.
2.3 Max.
23
SAW Resonators Sample Circuits
RF Modulators
SPECIFICATIONS (for Keyless Entry)
KAR-303CK
KAR-304CK
KAR-310CK
KAR-314CK
KAR-314CL
KAR-315CK
KAR-320CK
KAR-345CK
KAR-359CK
KAR-417CK
KAR-418CK
KAR-423CK
JPN
US
US
US
US
US
JPN
US
US
UK
UK
EU
Resonant
Frequency (MHz)
303.875±0.25
304.30±0.25
310.00±0.25
314.00±0.25
314.50±0.25
315.00±0.25
320.65±0.25
345.00±0.25
359.90±0.25
417.50±0.25
418.00±0.25
423.22±0.25
KAR-432CK
KAR-433CK
KAR-433CL
KAR-479CK
KAR-303CF
KAR-304CF
KAR-310CF
KAR-314CF
KAR-314CG
KAR-315CF
KAR-320CF
KAR-345CF
KAR-359CF
KAR-417CF
KAR-418CF
KAR-423CF
KAR-432CF
KAR-433CF
KAR-433CG
KAR-479CF
EU
EU
EU
JPN
JPN
US
US
US
US
US
JPN
US
US
UK
UK
EU
EU
EU
EU
JPN
432.92±0.25
433.92±0.25
433.42±0.25
479.50±0.5
303.875±0.25
304.30±0.25
310.00±0.25
314.00±0.25
314.50±0.25
315.00±0.25
320.65±0.25
345.00±0.25
359.90±0.25
417.50±0.25
418.00±0.25
423.22±0.25
432.92±0.25
433. 92±0.25
433.42±0.25
479.50±0.5
Part No.
Channels
Resonant
Loss (dB)
Parallel
Capacitance (pF)
Temperature
Characteristics (ppm/°C)
Dimension
±8 Max.
Fig. C
±8 Max.
Fig. D
4.0 Max.
2.5 Max.
3.2 Max.
2.3 Max.
4.0 Max.
2.5 Max.
3.2 Max.
2.3 Max.
*JPN: Japan U: United States EU: Europe
* For other frequencies, please contact your nearest sales office.
1
15.6
(.614)
1. L-ch
2. H-ch
3. GND
4. Common
Fig. A
24
4
3
2
1
2.2
(.087)
4
3
2
1
12.0
(.472)
Fig. B
4.4±0.5
(.173±0.020)
3
1
7.2
(.283)
2
4-ø0.45 max.
(.157ø0.018)
3
2
(.108)
2.75
3
2
3-2.5±1.0
(.118-.098±0.039)
3 - 2.5
(.098)
9.0
(.354)
4
1
6.35±0.5
3.0±0.5
(.25±0.020) (.118±0.020)
4 Ø 0.65
(.026)
5.0
(.197)
2.5 2.5
(.098) (.098)
3.0
(.118)
Ø 0.45
(Ø.018)
4 Ø 0.65
(.026)
11.0±0.5
(.433±0.020)
3.0
(.118)
7.7
(.303)
7.7
(.303)
3.2
(.126)
3.5
(.138)
DIMENSIONS
Ø 5.08
(.20)
Ø 9.20
1. Hot
2. Hot
3. Ground
1. L-ch
2. H-ch
3. GND
4. Common
Fig. C
2.2±1.0
(.086±0.039)
Fig. D
1. Hot
2. Ground
3. Ground
4. Hot
Surface Acoustic Wave Resonators
ATTENUATION vs FREQUENCY
KAR—61CT
U.S. CHANNEL 3
IMPEDANCE and PHASE ANGLE
KAR—61CT
U.S. CHANNEL 3
Ref: 80° Phase Angle
0° Phase Angle
Frequency (MHz)
61.550
61.450
20
61.350
-9
100
80
60
40
61.250
-8
-50
200
61.150
-40
1,000
800
600
400
61.050
-7
2,000
60.950
-35
S22 - Attenuation (dB)
-6
62.040
-5
-30
61.840
-4
-25
61.640
-20
61.440
-3
61.240
-2
-15
61.040
-10
60.840
0
-1
60.640
0
-5
60.440
S21 - Attenuation (dB)
5,000
Frequency (MHz)
Attenuation Change at Resonance with Temperature
KAR–61CT
U.S. Channel 3
+0.1
-20°C
0°C
U.S. Channel 4
+0.2
25°C
0
40°C
60°C
-0.1
∆ATT (dB)
∆ATT (dB)
+0.2
+0.1
-20°C
0°C
25°C
0
40°C
60°C
-0.1
-0.2
-0.2
Resonant Frequency Change with Temperature
KAR–61CT
U.S. Channel 4
U.S. Channel 3
+10
+10
+5
25°C
0
-20°C
-5
-10
0°C
40°C
60°C
∆fr (ppm)
∆fr (ppm)
+5
25°C
40°C
60°C
0
-20°C
0°C
-5
-10
-15
-15
-20
-20
-25
-25
25
MHz Band Quartz Crystals
SMD Type - KSX Series
FEATURES
HOW TO ORDER
1) Reference frequency for
telecommunicaton system
2) High reliability ceramic package
3) 1000 pieces per reel
4) Sold in increments of 2000
pieces
KSX - 36 - 192M - ****
1
2
3
1 Model: KSX-36
2 Frequency: 19.2 MHz
3 Specification: 4 digits on end of
part number
SPECIFICATIONS (KSX)
Parameters
Code
Specification
Remarks
Frequency Range
fo
12~22MHz
See available frequencies below
Load Capacitance
CL
12.0pF
Frequency Tolerance
∆f/f
±10ppm
Storage Temperature
Tstg
-40°C~+85°C
Operating Temperature
Topr
-30°C~+80°C
Frequency Stability
vs. Temperature
∆f/T
±10ppm
-10°C~+60°C (+25°C standard)
Crystal Impedance
CI
30 (max.)
0/25/50°C & 1µW/100µW
+25±2°C
DIMENSIONS
4.4
6.0+/-0.1
4-R0.2
#2
#4
#3
#1
#2
RECOMMENDED REFLOW PROFILE
(C°)
1.7
245±5°C
300
1.5
2.4
#3
1.4
RECOMMENDED LAND PATTERN
#4 #3
#4
1.0 max.
1.0 1.5
3.5+/-0.1
3.0
#1
200
#1 #2
4.4
160±10°C
90 sec.
20 sec. max.
200°C min.
70 sec. max.
100
4 Terminals type, #2 and #4 are for G.
FREQUENCY (MHz)
12.00
12.600
13.000
13.8650
14.850
16.368
19.200
19.800
21.145
21.400
12.500
12.800
13.824
14.400
15.360
16.800
19.680
20.945
21.250
26.000
26
MHz Band Quartz Crystals
Leaded Type - KT Series
FEATURES
HOW TO ORDER
1) Reference frequency for
telecommunication system
2) High stability of characteristics
due to vacuum pack can
3) Reflow solderable (Drift after
solder:±1ppm)
4) Bulk packaged 500 pieces/bag
5) Sold in increments of 2000
pieces
KT-308 - 192M ****
1
2
3
1 Model: KT-308
2 Frequency: 19.2MHz
3 Specification: 4 digits on end of
part number
SPECIFICATIONS (KT)
Parameters
Code
Specification
Remarks
Frequency Range
fo
12~22MHz
See available frequencies below
Load Capacitance
CL
13.0pF
Frequency Tolerance
∆f/f
±10ppm
Storage Temperature
Tstg
-40°C~+85°C
Operating Temperature
Topr
-30°C~+80°C
Frequency Stability
vs. Temperature
∆f/T
±10ppm
-10°C~+60°C (+25°C standard)
Crystal Impedance
CI
30 (max.)
-10/25/50°C & -10dbm/-30dbm
+25±2°C
DIMENSIONS AND MARKING
ø1.1 ±0.1
A 7 25
1
2
3
+0.1
ø3.0 -0.05
*
4
+0.1
ø3.0 -0.05
A : Frequency (19.2MHz)
7 : Production Year (1997)
25: Production Week (25th week)
: Option
*
+0.1
8.8 -0.05
+0.1
10.5 -0.05
FREQUENCY (MHz)
12.00
12.800
13.824
14.400
15.360
16.800
20.945
19.800
21.250
12.600
13.000
13.8650
14.850
16.368
19.200
19.800
21.145
21.400
27
AVX/Kyocera Clock Oscillators
GENERAL DESCRIPTION
to what is is called the piezoelectric effect. At one particular frequency, which is determined by the geometry and
size of the crystal, vibration will occur much more easily
than at any other frequency. This is called the “resonant”
frequency. If an oscillation circuit is built around this crystal, the mechanical vibrations can be used to control the
electrical oscillations very precisely.
AVX/Kyocera builds its high quality clock oscillators
from the substrate up. The whole module is hermetically
sealed into an all-metal welded package to protect it from
humidity. The case is directly grounded into a pin to help
minimize RF radiation and meet FCC’s EMI specifications.
A full range of clock oscillators are manufactured by
AVX/Kyocera. These extend from 1 MHz up to 72 MHz and
include TTL and HCMOS compatible drive levels. AVX/
OSCILLATION DEVICES
Kyocera also offers special low power consumption clocks
Various types of circuits can be used to generate tim- for long life battery applications. (See chart page 28.) Aping waveforms for electronic devices. The simplest of these plication specific designs for critical requirements of today’s
is a simple circuit using capacitors, inductors and an active high-speed, 32-bit microprocessors are available.
element such as a transistor or operational amplifier. This
is an easy, low cost solution but the frequency is not very WAVEFORM
stable due to temperature and individual component variaThe diagram below shows a typical waveform of a
tions. A more stable circuit would utilize a ceramic resona- clock oscillator with an explanation of the parameters imtor, which has the advantage of better frequency tolerance, portant for correct selection of the appropriate device.
Often called the symmetry of a waveform, duty cycle is
but resonators are only available in certain frequency ranges
and stability of ±0.5% is the best that can be achieved. If a measure of how close to being equal the high and low
better frequency stability is needed, then the most popular parts of a waveform are. A perfectly symmetrical waveform
method is to use a circuit which relies on the piezoelectric will have duty cycle of 50%. We usually specify the minimum and maximum variations of the duty cycle as, for
properties of quartz crystals to stabilize the oscillation.
If an alternating electrical field is applied to a cut and example: 60/40%. This is computed from the times shown
polished quartz crystal, the crystal lattice will deform due on the diagram below as A /A+B.
Clock oscillators are devices which generate the pulses
to control the timing and operation of logic circuitry. They
differ from other components used to control the timing of
logic circuits, such as quartz crystals and ceramic resonators, in that clock oscillators need a power supply but no
additional external circuitry to operate. Clock oscillators are
usually made by combining in a single package a frequency
control device such as a quartz crystal, and a hybrid circuit
of resistors, capacitors, and either transistors or an integrated circuit. The package is often either a welded steel
can or ceramic package hermetically sealed which protects
the crystal and electronics from environmental effects and
also reduces the unwanted electromagnetic and radio-frequency emissions which oscillators can generate.
Series
TTL
K50 -HC* -C †
KXO -01
KXO -HC* -T (KHO -HC* -T)
HCMOS
K50 -HC* -C †
K50 -CS* -SE
KXO -HC* -C (KHO -HC* -C)
386 -HC
Low Voltage
K50 -3C (3.3V)
Output
Frequency (MHz)
Fan Out
8 to 68
8 to 50
1 to 72
Output Level
Features
VOH Min
VOL Max
50pF
10 TTL
10 TTL
0.9 VDD
2.4
2.4
0.1 VDD
0.4
0.4
CMOS/TTL Drive
Cost Performance
Versatile Drive Capabilities
8 to 68
8 to 50
1 to 72
24,32,40,50
50pF
15pF
50 pF
7 TTL
0.9 VDD
VDD-0.5
0.9 VDD
0.9VDD
0.1 VDD
0.5
0.1 VDD
0.1 VDD
CMOS/TTL Drive
Low Power Consumption
Versatile Drive Capabilities
Drives 80386
8 to 68
15pF
0.9 VDD
0.1 VDD
Low Supply Voltage
†Will also drive TTL. See catalog for details – page 31.
Cordless & Cellular Phones
Temperature Compensated
KT11
KT12
KT14
VCO
28
Frequency (MHz)
12.8, 13.0, 14.4, 14.85, 15.36, 16.8, 19.2
12.8, 13.0, 14.4, 16.8, 19.2, 19.68
13.0, 14.4, 14.85, 16.8, 19.2, 19.44, 19.68, 19.8
200~2000
Output
Features
1Vp-p/10kΩ /10pF
1Vp-p/10kΩ /10pF
1Vp-p/10kΩ /10pF
Surface Mount
Miniature Surface Mount
Ultra Low Profile Surface Mount
High Performance Surface Mount
AVX/Kyocera Clock Oscillators
GENERAL DESCRIPTION continued
CLOCK OSCILLATOR APPLICATIONS
In a typical personal computer system 5 or 6 clock
oscillators may be used in the main processing unit, for all
the add-on boards, video graphics adapters, co-processors,
etc., and all the peripheral devices such as printers,
modems and networking equipment. Many different
companies may be involved in the manufacture of all these
individual parts of the system.
The telecommunications industry uses clock oscillators
in fax machines, cellular phones, pagers, and radio systems.
These oscillators are typically very high precision,
temperature compensated and voltage controlled devices.
Clock oscillators are manufactured by combining a
quartz crystal into a hybrid module containing passive
components and active digital devices.
AVX/Kyocera builds its high quality clock oscillators
from the substrate up. The whole module is hermetically
sealed into an all-metal welded package to protect it from
humidity. The case is directly grounded to a pin to help
minimize RF radiation and meet FCC’s EMI specifications.
PACKAGING
The diagrams below show the basic design of the 14
pin and 8 pin DIP (dual inline packages) and ceramic SMT
packages in which most of the clock oscillators are available.
Leaded oscillators are tube packaged. SMT K50 units are
tape and reel packaged 1000 units per reel. Tube packages
hold 25 units each for the KXO-01 and KXO-HC series,
and 40 units each for the KHO-HC series products.
FREQUENCY vs. POWER SUPPLY CURRENT
VDD 5.0V
60
60
50
50
50pF
(CMOS Load)
40
40
2
2
IDD
(mA)
30
30
IDD
(mA)
3
20
20
15pF
(TTL Load)
3
K50-CS
1
1
4
10
10
K50-3C
0
0
0
10
20
30
40
50
60
70
0
80
10
20
40
1. KXO-01
2. KXO-HC-C/KHO-HC-C
3. KXO-HC-T/KHO-HC-T
1.
2.
3.
4.
70
80
CLOCK OSCILLATOR GENERAL CONSTRUCTION
1
2
3
4
5
6
7
8
9
H
2.4V
0.9VDD
1.4V
0.5VDD
0.4V
L
0.1VDD
1
B
4
3
2
A
60
K50-CS
K50-HC-C (CMOS Compatible)
K50-HC-C (TTL Compatible)
K50-3C
TR
TF
50
FREQUENCY (MHz)
FREQUENCY RANGE (MHz)
OUTPUT WAVEFORM
30
5
6
Duty
= A
Ratio A+B
7
9
Chip components
Crystal
IC
Cap
Crystal supporter
Thick film substrate
Stem
Stand-off
Lead pin
8
PACKAGES
8 Pin DIP
14 Pin DIP
#1
#14
#7
#8
#1
#8
4 Pad SMD
#4
#5
#1
#2
#4
#3
29
AVX/Kyocera Crystal Clock Oscillators
MECHANICAL
Readings to be made one hour after completion of test.
Shock Resistance - Drop module onto a hard wooden surface from a height of 50cm, three times. Unit must meet
initial electrical requirements after test.
Vibration Resistance - Vibrations with an amplitude of 1.5mm and a sweep between 10 and 55Hz of 1 minute shall
be applied for 2 hours in each of the X, Y, and Z axes for a total test time of 6 hours. Unit must meet initial electrical
requirements after test.
Pin Pull and Bend - A load of 1kg shall be applied for 30 seconds in the direction of each pin. The pin will withstand
without damage a bend from its base of 90° in one direction twice. Unit must meet initial electrical requirements after
test.
Solvent Resistance - After immersion in Freon TF, Freon TE or IPA Liquid, at 25±5°C for a period of 10 minutes, unit
shall meet initial electrical requirements.
Ultrasonic Resistance - Unit shall withstand ultrasonic washing at 28 to 31kHz and 300 watts per 20 liters of fluid in
either Freon TF, Freon TE or IPA for up to 30 seconds without damage.
ENVIRONMENTAL
Readings to be made two hours after completion of test.
Soldering Heat - Immerse pin to within 1mm of the glass stand-off in a solder bath of 280±10°C for 10 seconds. Unit
shall meet initial electrical requirements after test.
Heat Resistance - After exposure to +85°C for 500 hours, frequency change shall be within ±10ppm of initial value.
Cold Resistance - After exposure to -40°C for 500 hours, unit must meet initial electrical requirements.
Humidity Resistance - After exposure to +85°C and 85% RH for 500 hours, unit must meet initial electrical requirements and show no significant rusting.
Thermal Shock - After 15 cycles of immersions in baths of 100°C and 0°C for 5 minutes with transfer times within 10
seconds, units will meet initial electrical requirements.
Hermeticity - Helium leak detector test should be performed under 5 x 10-7 atm, and measured after application of
10kg/sq cm of pressure for three hours and exposure to air for 30 minutes. No air bubbles shall be found when immersed in 75°C water for 5 minutes.
AVX/Kyocera Crystal Clock Oscillator
30
K50-HC-C Series Miniature SMT Crystal Clock Oscillators
HCMOS Compatible
ƒO: 8 to 68 MHz
Features:
How to Order
1) Miniature SMT ceramic package
2) Frequency: 8~68MHz
3) Stability: 100ppm, 50ppm
4) Load: 50pF maximum
5) Tristate output inhibit
6) Hermetically sealed package
7) 1000 pieces per reel
8) Sold in increments of 1000
pieces
K50-HC 1 CS E 40.0000M R
1
2 3 4
5
6
1 Type: (K50-HC series)
2 Stability: 1-100ppm, 0-50ppm
3 Output compatibility:
CS = CMOS 45/55 duty cycle @ 50% VDD
CS = TTL 40/60 duty cycle @ 1.4 volts
4 Tristate output: E with function
5 Frequency (MHz)
6 Packaging: R=Tape and reel
SPECIFICATIONS (K50-HC)
Parameters
Output Frequency
Frequency precision
Operating temp.
Storage temp.
Supply voltage
Supply current
Duty cycle
Output "0" level
Output "1" level
Rise / Fall time
Code
fOUT
∆f/f
tOPR
tSTOR
VDD
IDD
SY
VOL
VOH
TR/TF
Load
Enable/disable time
Aging rate
Input voltage-high
Input voltage-low
VIH
VIL
TTL Output
Rating
Remarks
8~68
1=100, 0=50
-10 to 70°C, VDD=5±0.5V
-10 to +70
-55 to +125
5 ±0.5
40 max @ 10TTL/15pF
25°C, 50MHz
40/60
at 1.4 volts
0.4max
@IOL = 16mA
2.4min
@IOH = -1mA
5max
0.4V-2.4V
fo≤50MHz=50pF
fo>50MHz=15pF
100max
±5max
2.2min
0.8max
CMOS Output
Rating
Remarks
8~68
1=100, 0=50
-10 to 70°C, VDD=5±0.5V
-10 to +70
-55 to +125
5 ±0.5
50 max @ 50pF
25°C, 50MHz
45/55
@50%VDD
0.5max
@IOL = 16mA
VDD-0.5min
@IOH = -1mA
10max
10-90%VDD, 50pF
fo≤50MHz=50pF
fo>50MHz=15pF
100max
±5max
2.2min
0.8max
Unit
MHz
ppm
°C
°C
V
mA
%
V
V
nS
nS
ppm/y
V
V
TEST CIRCUIT
TTL Output
CMOS Output
VDD
400Ω
A
A
3
1
2
NC
V
VDD
4
15pF
3
1
2
NC
V
VDD
4
50pF
0.1µF
0.1µF
OUTPUT WAVEFORM
TTL Output
TR
CMOS Output
TF
TR
TF
90%VDD
50%VDD
2.4 Volts
1.4 Volts
10%VDD
0.4 Volts
A
B
Duty cycle =
A/(A+B)X100%
A
B
Duty cycle =
A/(A+B)X100
31
K50-3C Series Miniature SMT Crystal Clock Oscillators
3.3 Volt
ƒO: 8 to 68 MHz
Features
How to Order
1) 3.3 volt operation
2) Tristate output inhibit and
oscillation shutdown to reduce
power supply current draw
3) Miniature SMT ceramic package
4) Frequency: 8 to 68MHz
5) Stability: 100ppm
6) Load: up to 15pF
7) Hermetically sealed package
8) 1000 pieces per reel
9) Sold in increments of 1000 pieces
K50-3C 1 E 40.0000M R
1
2
3
4
5
1
2 3
4
5
Type: (K50-3C series)
Stability: 1-100ppm
Tristate o/p and shutdown: E with function
Frequency (MHz)
Packaging: R=Tape and reel
SPECIFICATIONS (K50-3C)
Parameters
Code
Rating
Unit
Output Frequency
fOUT
8 to 68
MHz
Frequency precision
DF/F
1=100, 0=50
ppm
Operating temp
tOPR
-10 to +70
°C
Storage temp
tSTOR
-55 to +125
°C
Supply voltage
VDD
3.3 ±10%
V
Supply current(1)
IDD(1)
25 max @ 15pF
mA
Remarks
-10 to 70°C, VDD=3.3±10%
25°C, 68MHz
Oscillation shutdown
(pad #1= low, pad #3=high imp.)
IDD(2)
100 max
µA
Duty cycle
SY
40/60
%
@50%VDD
Output "0" level
VOL
10% VDD max
V
@15pF load
Output "1" level
VOH
90%VDD min
V
@15pF load
Rise / Fall time
TR/TF
10max
nS
10%-90%VDD, 15pF
15max
pF
or 5LSTTL
5
mS
8.0000 to 32.0000MHz
150max
nS
32.0001 to 50.0000MHz
5
mS
50.0001 to 68.0000MHz
±5max
ppm/y
Supply current(2)
Load
Enable/disable time
Aging rate
Input voltage-high
VIH
2.0min
V
Input voltage-low
VIL
0.5max
V
TEST CIRCUIT
VDD = 3.3V, IIH = 10µA
OUTPUT WAVEFORM
TR
A
VDD
V
4
3
1
2
NC
TF
90%VDD
50%VDD
15pF
0.1µF
10%VDD
A
32
B
Duty cycle =
A/(A+B)X100
K50-CS Series Miniature SMT Crystal Clock Oscillators
Low Power Consumption
ƒO: 8 to 50 MHz
Features
How to Order
1) Miniature SMT ceramic package
2) Low power consumption
3) Frequency: 8-50MHz
4) Stability: 100ppm, 50ppm
5) Load: 15pF
6) Tristate output inhibit
7) Hermetically sealed package
8) 1000 pieces per reel
9) Sold in increments of 1000
pieces
K50-CS 1 S E 40.0000M R
1
2
3
4
5
6
1
2 3 4
5
Type: (K50-CS series)
Stability: 1-100ppm, 0-50ppm
Duty cycle: S-45/55
Tristate o/p: E with function
Frequency
Packaging: R=Tape and reel
6
SPECIFICATIONS (K50-CS)
Parameters
Code
Rating
Unit
Output Frequency
fOUT
8 to 50
MHz
Frequency precision
∆f/f
1=100, 0=50
ppm
Operating temp
tOPR
-10 to +70
°C
Storage temp
tSTOR
-55 to +125
°C
Supply voltage
VDD
5 ±0.5
V
Supply current
IDD
30 max @ 15pF
mA
25°C, 50MHz
Duty cycle
SY
45/55
%
@50%VDD
Output "0" level
VOL
0.1VCC max
V
@IOL = 4.0mA
Output "1" level
VOH
0.9VCC min
V
@IOH = -4.0mA
Rise / Fall time
TR/TF
10max
nS
0.1VCC-0.9VCC
Load
15max
pF
Enable/disable time
100max
nS
Aging rate
±5max
ppm/y
Input voltage-high
VIH
2.2min
V
Input voltage-low
VIL
0.8max
V
Remarks
-10 to 70°C, VDD=5±0.5V
OUTPUT WAVEFORM
TEST CIRCUIT
TR
A
VDD
V
4
3
1
2
NC
TF
90%VDD
50%VDD
15pF
0.1µF
10%VDD
A
B
Duty cycle =
A/(A+B)X100
33
K50 Series Miniature SMT Clock Oscillators
Ceramic Package
DIMENSIONS
1.4
(.055)
Output Frequency
4
5.0±0.2
(.197±.008)
Frequency
Precision *1
3
Pad #
1
2
3
4
40.0000
1B W01
1.1
(.043)
2.4±0.2
(.094±.008)
R0.35
1
5.08±0.15
(.200±.006)
Pin 1 Indication
2
Lot Number
Model *2
7.02±0.2
(.276±.008)
*Logic “0” disables o/p
1.6±0.2
(.06±.008)
0.75±0.1
(.030±.004)
Function
Output Disable*
GND/ Case GND
Output
+VDD
Units: mm (inches)
*Marking: *1) 1 = 100ppm, 0 = 50ppm. *2) A = CS-E, B = HC-CSE, L = 3C-LE (3.3 volt)
FREQUENCY VS.
POWER SUPPLY CURRENT
SOLDERING
Suggested Solder Pad Layout
Suggested IR Reflow Profile
50
1.8
(.071)
Temp
°C
240
±5
50pF
(CMOS Load)
40
10 sec
Place decopling
capacitor as close to
oscillator as possible
2.0
(.079)
2
30
IDD
(mA)
4.2
(.165)
150
±10
3
20
15pF
(TTL Load)
K50-CS
1
0.1µF
90 sec
4
10
K50-3C
5.08
(.200)
0
Time: sec
0
10
20
30
40
50
60
70
80
FREQUENCY (MHz)
Units: mm (inches)
ENABLE/DISABLE FUNCTION CHART
K50-HC-C, K50-CS Series
#1 Pad
#3 Pad
High or Open
Oscillation
Low
K50-3C-L Series
#1 Pad
#3 Pad
High
Oscillation
High Impedance
Low
Oscillation Stops
High Impedance
PACKAGING
Reel Dimensions
Embossed Carrier Tape Dimensions
1.25
(.049)
∅1.5
(.059)
2.0
(.079)
∅125.0
(4.92)
10.0
(.393)
2.5
(.098)
∅13.0
(.512)
∅21.0
(.827)
16.0
(.630)
Detail of Hub
5.75
(.226)
50.000
1A T01
∅60.0
(2.36)
17.0
(.669)
2.1
(.083)
1.75
(.069)
50.000
1A T01
∅180.0
(7.09)
4.0
(.157)
7.65
(.301)
0.3
(.012)
8.0
(.315)
Units: mm (inches)
34
KT11 Series SMT Crystal Clock Oscillators
Temperature Compensated
FEATURES
HOW TO ORDER
1) Frequency adjustment
free after reflow soldering
process
2) Ultra miniature type
(11X9X4mm)
3) AFC function available
(option)
4) 3V/5V drive available
5) 1000 pieces per reel
6) Sold in increments of
1000 pieces
KT11 - E G R 30 N - 19.200M T
1
2 3 4 5 6
7
8
Type
Frequency precision: D=±2ppm, E=±2.5ppm, K=±5ppm
Lower temperature limit: C=-30°C; E=-20°C, G=-10°C
Upper temperature limit: R=60°C; T=70°C; V=80°C
Supply voltage: 30=3.0V; 50=5.0V
AFC function; V=with; N=without; L=with (trimmerless)
Frequency: See table below.
Packaging: T=Tape and reel
1
2
3
4
5
6
7
8
SPECIFICATIONS
Frequency
VDD
Output (10kΩ /10pF)
Current consumption (no load)
19.200MHz/PHS
3V±5%
1.0Vp-p min.
2.0mA max.
±2.5ppm
(-10~+60°C)
±0.2ppm max.
±0.3ppm max.
±3.0ppm min.
±4~±8ppm (±30ppm:Trimmerless type)
-3dBc max.
±1.0ppm / y max.
Temperature
Frequency stability
(∆f/fa)
Load (10pF/10kΩ ±10%)
Voltage (3.0V ±5%)
Trimmer adjustment (∆f/fa)
Voltage control (1.5V±1.0V) ∆f/V
Spurious ratio
Aging
TEST CIRCUIT (EXCEPT FOR HARMONIC)
12.8, 13.0, 14.4, 14.85, 15.36, 15.9, 16.8MHz/Cellular
3V or 5V±5%
1.0Vp-p min.
2.0mA max.
±5.0, ±2.5, ±2.0ppm max.
(-30~+80°C)
±0.2ppm max.
±0.3ppm max.
±3.0ppm min.
±4~±8ppm (±30ppm:Trimmerless type)
-3dBc max.
±1.0ppm / y max.
TEST CIRCUIT (HARMONIC)
A
A
Synchroscope Counter
Power
Supply
VDD
4
V
Spectrum Analyzer
3
Oscillator
1
2
Power
Supply
VDD
C1
4
V
3
Oscillator
1
2
100KΩ
10pF
10KΩ
N.C. or Vcon
N.C. or Vcon
10KΩ
C1: 10pF inclusive of test jig and probe capacitance
RECOMMENDED PAD LAYOUT
0.9±0.2
DIMENSIONS
Freq. Adj.
4
2
1.5
2
Pad #
1
2
3
4
3
4.0max
1.0
Function
N.C. or Vcon
GND/Case GND
Output
+VDD
TAPING DIMENSIONS
1.75
6.40
1.20
#1 PIN
(N.C. or Vcon)
Units: mm
7.62±0.3
Ø1.6
#3 PIN
(Output)
7.2
EGR30N
19.200MT
9613
1
0.9±0.2
1
3
(7.2)
9.0±0.3
2.4
4
#4 PIN
(VDD)
7.62±0.3
1.5
11.0±0.3
1.20
#2 PIN
(GND)
Units: mm
RECOMMENDED REFLOW PROFILE
2.0 4.0
(°C)
9.5
12.0
R05
max.
200
150
0.4
4.2
Feeding direction
Ø100
Ø1.6
16.0
1.4
Ø21
Ø330
24.0
11.5
12.0
11.7
300
Ø13
3.0
24.4
Over 200°C
15 sec. max.
Peak
230°C±5°C
Over
180°C
100
40 sec. max.
Units: mm
35
KT12 Series SMD Crystal Clock Oscillators
Temperature Compensated
FEATURES
HOW TO ORDER
1) Miniature SMD type
(11.6x9.6x2.3mm)
2) Frequency adjustment
free after reflow
soldering process
3) AFC function available
(option)
4) 3V/5V drive available
5) Frequency stability:
±2ppm at -30~+80°C
6) 2000 pieces per reel
7) Sold in increments of
2000 pieces
KT12
- D C V 33 V - 19.680M T
1
2
3 4 5 6 7
8
9
1 Type
2 Terminals: Blank ( )=4 terminals, A=6 terminals
B=8 terminals
3 Frequency stability: D=±2ppm, E=±2.5ppm, K=±5ppm
4 Lower operaing temp.: C=-30°C; E=-20°C, G=-10°C
5 Upper operating temp.: R=60°C; T=70°C; V=80°C
6 Supply voltage: 30=3.0V; 50=5.0V
7 AFC function; V=with; N=without; L=with (trimmerless)
8 Frequency: See table below
9 Packaging: T= Tape and reel
SPECIFICATIONS
Parameters
Specification
Code
Supply Voltage
Vcc
Output Frequency
Fout
Operating Temp.
Storage Temp.
Topr
Tstr
Frequency Stability
∆ f/fo
Aging Rate
Output Voltage
Supply Current
Trimmer Control Range
Voltage Control Range
Harmonics
PHS
Unit
Cellular
3.0V±5%
5.0V±5%
19.680
19.200
19.200
16.800
14.400
13.000
12.800
-10 ~ 60
-30 ~ 80 max.
-20 ~ 70
-40 ~ 85
±2.0 max.
±2.5 max.
±2.5max.
±0.2 max.
±0.3 max.
±1.0 max.
1.0 min.
2.0 max.
±3.0 min.
ex: ±4.0 ~ ±8.0
-3.0 max.
3.0V±5%
Aging
Vout
Icc
∆ f/C
∆ f/V
—
DIMENSIONS
V
MHz
—
°C
°C
—
—
vs. Temp. (After Reflow)
ppm
vs. Load
vs. Voltage
1 Year
Load 10kΩ /10pF
—
Internal Trimmer
1.5V±1V, 2.5±1V
—
ppm/year
Vp-p
mA
ppm
ppm
dBc
RECOMMENDED LAND PATTERN
3
1.2
4
0.7
1.0
1.60
Pad No.
Function
1
2
3
4
NC or Vcon
GND/Case GND
OUTPUT
+Vcc
1.60
(7.2)
Freq. Adj.
1.40
#3 Pin
(Output)
TEST CIRCUIT (AMPLITUDE)
#4 Pin
(N.C. or Vcon)
4.60
2
1
Marking
9.6±0.3
#2 Pin
(GND)
7.62±0.15
1.2
11.6±0.3
2.3 max.
Remarks
TEST CIRCUIT
(HARMONICS & FREQUENCY)
3.68
1.40
#4 Pin
(VCC)
RECOMMENDED REFLOW
PROFILE (IR REFLOW)
(C°)
Peak: 230±5°C
15 sec. max.
250
A
A
Synchronized
Scope Counter
Power
Supply
Vcc
V
4 3
Oscillator
1 2
Vcon or N.C.
C1: Probe Capacitance (10pF)
10kΩ
±10%
C1
Spectrum
Analyzer
Power
Supply
Vcc
V
4 3
Oscillator
1 2
Vcon or N.C.
200
180
150±10°C
150
10kΩ
±10%
10pF
±10%
100
180°C min.
40 sec. max.
50
60 sec.
60 sec.
0
(sec.)
36
KT14 Series SMD Crystal Clock Oscillators
Temperature Compensated
FEATURES
HOW TO ORDER
1) Ultra low profile SMD
type (9.0x7.0x1.7mm)
2) Fequency adjustment
free after reflow
soldering process
3) AFC function available
(option)
4) 2.8, 3.0, 3.3V
drive available
5) 2000 pieces per reel
6) Sold in increments of
2000 pieces
KT14 - E C T 28 L - 19.440M T
1
2 3 4 5 6
7
8
Type
Frequency stability: D=±2ppm, E=±2.5ppm, K=±5ppm
Lower operating temp.: C=-30°C; E=-20°C, G=-10°C
Upper operating temp.: R=60°C; T=70°C; V=80°C
Supply voltage: 28=2.8V; 50=3.0V
AFC function; V=with; N=without; L=with (trimmerless)
Frequency: See table below.
Packaging: T=Tape and reel
1
2
3
4
5
6
7
8
SPECIFICATIONS
Parameters
Specification
Code
PHS
Supply voltage
Vcc
2.8V±5%
Output Frequency
Fout
19.200
Operating Temp.
Storage Temp.
Topr
Tstr
-10 ~ 60
-20 ~ 70
±2.5 max.
Frequency Stability
∆ f/fo
Aging Rate
Output Voltage
Supply Current
Trimmer Control Range
Voltage Control Range
Harmonics
Aging
Vout
Icc
∆ f/C
∆ f/V
—
Cellular
2.8V±5%
3.0V±5%
3.3V±5%
13.000
14.400
14.850
16.800
19.200
19.440
19.680
19.800
-30 ~ 80 max.
-40 ~ 85
±2.0 max.
±2.5 max.
±0.2 max.
±0.3 max.
±1.0 max.
1.0 min.
2.0 max.
—
ex: ±8.0 ~ ±15.0
-3.0 max.
±3.0 min.
—
DIMENSIONS
Unit
Remarks
V
—
MHz
—
°C
°C
—
—
vs. Temp. (After Reflow)
ppm
vs. Load
vs. Voltage
1 Year
Load 10KΩ /10pF
No Load
—
1.5V±1V, 2.5±1V
—
ppm/year
Vp-p
mA
ppm
ppm
dBc
1.2±0.1
RECOMMENDED LAND PATTERN
#2 Pin
(GND)
Freq. Adj.
1.4
0.5
1.7 max.
1.2±0.1
#1 pin mark
Pad No.
1
2
3
4
Function
NC or Vcon
GND/CASE GND
OUTPUT
+Vcc
4.60
(4.6)
7.0±0.3
Marking
#4 Pin
(N.C. or Vcon)
1.60
5.08±0.15
1.60
9.0±0.3
1.40
3.68
1.40
#3 Pin
(Output)
TEST CIRCUIT (AMPLITUDE)
TEST CIRCUIT
(HARMONICS & FREQUENCY)
#4 Pin
(VCC)
RECOMMENDED REFLOW
PROFILE (IR REFLOW)
Temperature
(C°)
A
Synchronized
Scope Counter
Power
Supply
Vcc
Peak: 230±5°C
15 sec. max.
250
A
V
4 3
Oscillator
1
2
Vcon or N.C.
C1: Probe Capacitance (10pF)
10kΩ
±10%
C1
Spectrum
Analyzer
Power
Supply
Vcc
V
4 3
Oscillator
1 2
Vcon or N.C.
200
180
150±10°C
150
10kΩ
±10%
10pF
±10%
100
180°C min.
40 sec. max.
50
60 sec.
60 sec.
0
Time (sec.)
37
Voltage Control Oscillator
VK Series - Surface Mount
ƒO: 100 to 700 MHz
FEATURES
HOW TO ORDER
1) Covers UHF band
2) For PDC mixing and PHS
2nd local
3) Available 2.2V, 3mA typ.
4) Small (9x7mm)
5) Low profile (2.00mm max.)
6) 2000 pieces per reel
7) Sold in increments of 2000
pieces
VK - 120 R 0130 A1 W
1
2
3
4
5
6
1
2 3
4
5
6
Series: VK=100~700MHz
Dimensions: 120=9x7mm
Applications: R=RX
Frequency: 0130=130MHz
Individual specification
Packaging: W = Tape and reel
SPECIFICATIONS
Parameters
Specifications
Supply Voltage
Current Consumption
Frequency
Output Level
Tuning Voltage Sensitivity
C/N (Phase Noise)
PSU Stability
Temperature Stability
Unit
Condition
2.2±0.2
V
4.0
mA
—
129.545
MHz
-3±3
dBm
2.5±1.0
MHz/V
70
dBc
±200
kHz
Vcc=2.2V
±1
MHz
-20 ~ +70°C
Ta=25±5°C
Vcc=2.2±0.05[V]
Vt=0.5 ~ 2.5V
Ta=25±5°C
Vcc=2.2±0.05[V]
[f(2.5) - f(0.5)]/2.0
off-set 25kHz
±0.2V
@25°C
Pulling Stability
±200
kHz
Spurious Level
-10
dBc
Reference is fundamental, Harmonics Level
-20 ~ 70
°C
—
Operating Temp. Range
DIMENSIONS and PAD CONNECTION
VSWR=2
16kHz B.W.
All phase
RECOMMENDED LAND PATTERN
VK-120
4
1
2
3
2.0 max.
38
1.7
5
7.0
6
Pad # Function
1
Vt
2
GND
3
VCC
4
OUT
5
GND
6
GND
6.7
9
1.0
3.6
3.5
3.5
Voltage Control Oscillator
EK Series - Surface Mount
ƒO: 700 to 1300 MHz
FEATURES
HOW TO ORDER
1) High reliability construction
2) Reflow soldering available
3) High performance for C/N
and S/N
4) 2000 pieces per reel
5) Sold in increments of 2000
pieces
EK - 304 R 0972 AA W
1
2
3
4
5
6
1
2
3
4
5
6
Series: EK=700~1300MHz
Dimensions
Applications: R=RX
Frequency: 0927=927MHz
Individual specification
Packaging: W = Tape and reel
SPECIFICATIONS
Specifications (Ta=25°C)
Type
Frequency
(MHz)
Part No.
N-TACS
765 ~ 800
PDC
AMPS
System
Module
Vcc
(V)
Icc
(MA)
Po
(DBM)
FTU
(MHZ/V)
C/N
(dBc)
EK-304R0783A1
3
±0.2
9
max.
-1±3
23±3
65 min.
1069~ 1090
EK-304R1080A1
2.2
±0.2
6
max.
-3±3
25±3
70 min.
914~939
EK-304R0927A9
2.55
±0.05
12
max.
+3±2
14±2
108 min.
1310 ~ 1393
EK-304R1352A2
2.8
10
±0.1
max.
(
(
TOP
(°C)
)
)
12.5kHz off
BW 8kHz
-20 ~ 70
50kHz off
BW21kHz
-20~ 80
(20kHz off)
-30~ 85
RX
PCS
GSM
1006~ 1031
EK-304R1019A6
PDC
780 ~ 841
EK-304R0811A1
39±4
-6 min.
-10 ~ 75
(25kHz off)
100 min.
15±3
2.2
±0.2
8
max.
-1±3
46±7
-20~ 75
67 min.
(
50kHz off
21kHz BW
)
-30 ~ 85
Vcc: Power supply,Icc: Current consumption,Po: Output level, FTU: Tuning voltage sensitivity, TOP: Operating temperature range
DIMENSIONS and PAD CONNECTION
RECOMMENDED LAND PATTERN
EK-304
4
1
2
3
2.0 max.
1.7
5
7.0
6
Pad # Function
1
Vt
2
GND
3
VCC
4
OUT
5
GND
6
GND
6.7
9
1.0
3.6
3.5
3.5
39
Voltage Control Oscillator
YK Series - Surface Mount
ƒO: 700 to 1600 MHz
FEATURES
HOW TO ORDER
1) SMD type
2) Covers 700~1600Mhz band
3) Small (7.8X6.0mm),
Low Profile (2.00mm max.)
4) 2000 pieces per reel
5) Sold in increments of 2000
pieces
YK - 501 R 1171 A1 W
1
2
3
4
5
6
1
2
3
4
5
6
Series: YK=700~1600MHz
Dimensions
Applications: R=RX
Frequency: 1171=1171MHz
Individual specification
Packaging: W=Tape and reel
ELECTRICAL CHARACTERISTICS
Parameters
Specifications
Unit
Condition
2.6±0.1
V
—
≤ 8.0
mA
1136 ~ 1206
MHz
≥ -6
dBm
Tuning Voltage Sensitivity
46±7
MHz/V
C/N (Phase Noise)
≥ 98
dBc/Hz
≤ ±1000
kHz
Vcc=2.6V
≤ ±3
MHz
-10 ~ 60°C
Pulling Stability
≤ ±1.5
MHz
VSWR=2
Spurious Level
≤ -10
dBc
Reference is fundamental
-10 ~ 60
°C
—
Supply Voltage
Current Consumption
Frequency
Output Level
PSU Stability
Temperature Stability
Operating Temp Range
Ta=25±5°C
Vcc=2.5±0.05[V]
Vt=0.3 ~ 2.4[V]
Ta=25±5°C
Vcc=2.5±0.05[V]
[f(2.4)-f(0.3)] /2.1
off set 25kHz
1Hz B.W.
±0.1V
ref 25°C
All Phase
*Covering frequency range is between 700MHz ~ 1600MHz
DIMENSIONS and PAD CONNECTION
RECOMMENDED LAND PATTERN
GND
2.0 max.
40
5
Pout
4
2.65
6
GND
GND
GND
1
2
2.4
1.0
3
Pad # Function
1
Vt
2
GND
3
VCC
4
OUT
5
GND
6
GND
1.5
6.2 max. (5.0 typ.)
8.0 max. (7.8 typ.)
Vt
3.4
1.0
GND
Vcc
3.0
3.9
Voltage Control Oscillator
RK Series - Surface Mount
ƒO: 1.3 to 2.0 GHz
FEATURES
HOW TO ORDER
1) Ultraminature size based on
low temperature co-firable
laminated substrate technology
2) Printed conductive line on inner
layer contributes to ultra high
density mounting
3) Reflow soldering available
4) 2000 pieces per reel
5) Sold in increments of 2000
pieces
RK - 405 R 1668 A1 W
1
2
3
4
5
6
1
2
3
4
5
Series: RK=1300~2000MHz
Dimensions
Applications: R=RX
Frequency: 1668=1668Mhz
Individual specification
Packaging: W=Tape and reel
6
ELECTRICAL CHARACTERISTICS
Type
System
Module
Frequency
(MHz)
PHS
RX
1647 ~ 1669
RK-405R1658
3.0
±0.15
6.5
max.
PHS
RX
1651 ~ 1685
RK-405R1668
3.0
±0.15
6.5
max.
Part No.
Specifications (Ta=25°C)
fTU
Vcc
Icc
Po
(V)
(mA)
(dBm)
-1±3
(MHz/V)
24±5
Vt=0.5 ~ 2.5V
C/N
Top
(°C)
Min
123 min
Typ
(600kHz
off )
128
-20°C
~
+60°C
127
-20°C
~
+60°C
123 min.
31±6
-1±3
Vt=0.5 ~ 2.5V
(600kHz
off )
Vcc: Power supply, Icc: current consumption, Po: Output level, ftu: tuning voltage sensivitiy, Top: Oeration temperature
DIMENSIONS and PAD CONNECTION
4.7
8
2
3
1 Pin Mark
1
2
3
4
5
6
7
8
Vt
GND
VDD
OUT
GND
GND
GND
GND
3.35
1.55
4
1.7
7
1
(2.0 max.)
7.8
5
6.05
6.0
6
RECOMMENDED LAND PATTERN
1.1
1.7
2.3
Units:mm
41
Voltage Control Oscillator
TAPE DIMENSIONS
Specifications
Part No.
Tape width, guide pitch
Diameter of Reel
Unit
Ø 330
2000pcs
Ø 330
2000pcs
Ø 330
2000pcs
Ø 330
2000pcs
16
4
VK-120
12
16
4
EK-304
1.5
YK-501
1 Pin mark
16.0
2
7.5
4
1.75
12
0.3
12
2.2
16
2
RK-405
12
REEL DIMENSIONS
19±0.4
Ø 13.0±0.2
R1.0
+1
Ø 21 - 0
Diameter of reel
W=Tape width +0.4
(Inner dimension)
Material: Plastic conductive reel
2.0
42
KXO-01 Series Crystal Clock Oscillators
TTL Drive - TTL Compatible
ƒO: 8.0 to 50 MHz
FEATURES
HOW TO ORDER
1) Lower Cost
2) 14 pin DIP compatible
3) Wide frequency range
(8MHz - 50MHz)
4) All metal package minimizes
RF radiation
5) Meets FCC EMI specifications
6) Solder coated pins
7) 25 pieces per tube
8) Sold in increments of 100
pieces
KXO-01 - 1 - 32.0000M T
1
2
3
4
1
2
3
4
Type: (Kyocera Crystal Oscillators)
Frequency precision:
0 = ±50ppm (special)
1 = ±100ppm
Frequency
Packaging: T = Tube
SPECIFICATIONS (KXO-01)
Parameters
Output Frequency
Code
Rating
Unit
fout
8 to 50
MHz
0:±50
ppm
0 to 70°C
1±100
ppm
4.5V to 5.5V
∆f/fo
Frequency Precision
Aging Rate
∆f/f
±5
ppm/y
Operating Temperature Range
Topr
0 to ±70
°C
-55 to +125
°C
Storage Temperature Range
Remarks
Voltage
VDD
5±0.5
VDC
Electrical Current Consumption
IDD
35 max
mA
Duty Ratio
Sy
40 to 60
%
1.4V DC level
“0” Level
VOL
0.4 max
V
At IOL=16mA
“1” Level
VOH
2.4 min
V
At IOH=400µA
15 max
nsec
8 to 32MHz
10 max
nsec
32.1 to 50MHz
1 to 10
TTL
Output
Rise and Fall Time
TR, TF
Fan Out
DIMENSIONS
#1
13 max.
(.512)
11 max.
(.433)
19 max.
(.748)
21 max.
(.827)
#7
4.58±0.5
(.180±.02)
#14
5.08
(.200)
7.62±0.3
(.300±.01)
12.2±0.5
(.480±.02)
15.24±0.3
(.600±.01)
6.35±0.5
(.250±.02)
0.8
(.031)
#8
4 – ø0.45
(.018)
Units: mm (inch)
43
KXO-01 Series Crystal Clock Oscillators
TTL Drive - TTL Compatible
ƒO: 8.0 to 50 MHz
MARKING
PIN CONNECTION
PIN #
FUNCTION
1
N.C.
7
Case /GND
8
Output
14
+5.0V D.C.
MFG. ID
PART NUMBER
OUTPUT FREQUENCY
COUNTRY OF ORIGIN
KXO-01-1
40.0000MHz
9801 JAPAN
DATE CODE
DOT (INDICATING PIN 1)
POPULAR FREQUENCY LIST
8.0000MHz
16.0000MHz
25.0000MHz
10.0000MHz
19.6608MHz
32.0000MHz
12.0000MHz
20.0000MHz
40.0000MHz
14.31818MHz
24.0000MHz
50.0000MHz
SHAPE OF OUTPUT WAVE
TEST CIRCUIT
5.0V
TR
TF
TP
14
A
400Ω
H
2.4V
8
1.4V
KXO-01
CL
VDD
V
1
0.1µF
7
15pF
0.4V
L
A
CL=15pF max
(Inclusive of test jig and
probe capacitance)
Duty
Ratio=
44
B
A X100
A+B
KXO-HC/KHO-HC Series Crystal Clock Oscillators
HCMOS Drive - TTL or CMOS Compatible
ƒO: 1 to 72 MHz
FEATURES
HOW TO ORDER
1) High speed CMOS
clock oscillator
2) High power drive level
3) Low current consumption
4) Output available with TTL
or CMOS compatibility
5) Enable/disable option
6) KHO-HC: 8 pin DIP
7) KXO-HC: 14 pin DIP
8) KXO: 25 pieces per tube
KHO: 40 pieces per tube
9) KXO: Sold in increments
of 100 pieces
KHO: Sold in increments
of 120 pieces
KXO-HC 1 -T S E - 32.0000M T
1
2
3
4
5
6
1
2
3
4
5
6
Type: KXO = 14 pin DIP; KHO = 8 pin DIP
Frequency precision:
S = ±25ppm, 0 = ±50ppm, 1 = ±100ppm
Output level/Duty cycle:
TS = TTL compatible/45 to 55%
CS = CMOS compatible/45 to 55%
Enable/Disable function:
= without function, E = with function
Frequency
Packaging: T = Tube
SPECIFICATIONS: TTL COMPATIBLE (KXO-HC-T/KHO-HC-T)
Parameters
Output Frequency
Code
fOUT
Frequency Precision
∆ f/f
Operating Temperature Range
Storage Temperature
Voltage
Electrical Current Consumption
Duty Cycle
Output “0” Level
“1” Level
Rise and Fall Time
Fan Out
Time to Enable/Disable
Aging
TP
VDD
–
nsec
µA
µA
V
V
ppm/yr
14
(8)
8
(5)
KXO-HC
(KHO-HC)
KXO-HC-T/KHO-HC-T
5.0V
Remarks
0 to 70°C
4.5V to 5.5V
f=50MHz, CL=15pF (10TTL load)
1.4V DC level
At IOL=16mA
At IOH=-1mA
0.4V to 2.4V, CL=15pF (10TTL load)
CMOS level OK
Tristate output
MARKINGS
KXO-HC
MFG. ID
TR
TF
400Ω
KXO-HC-T/KHO-HC-T
1
(1)
>50
S:±25
0:±50
1:±100
0 to +70
-55~+125
5±0.25
70 max
45 to 55
0.4 max
2.4 min
3.5 max
TTL 10 gates
100 max
10 max
-150 max
2.2 min
0.8 max
±5
Unit
MHz
ppm
ppm
ppm
°C
°C
V
mA
%
V
V
nsec
SHAPE OF OUTPUT WAVE
TEST CIRCUIT
V
O
IIH
IIL
VIH
VIL
∆ f/f
Input Voltage
A
1 to 50
S:±25
0:±50
1:±100
0 to +70
-55~+125
5±0.5
50 max
45 to 55
0.4 max
2.4 min
5.0 max
TTL 10 gates
100 max
10 max
-150 max
2.2 min
0.8 max
±5
TOPR
Tstr
VDD
IDD
SY
VOL
VOH
T R, T F
Input Current
+
Rating
H
2.4V
KXO-HC-TSE
40.0000 MHz
9801 Japan
1.4V
7
(4)
0.1µF
CL
15pF
0.4V
KHO-HC
L
A
CL=15pF max
(Inclusive of test jig and
probe capacitance)
PART NUMBER
OUTPUT FREQUENCY
COUNTRY OF ORIGIN
DATE CODE
DOT (INDICATING PIN 1)
A
Duty Ratio= A+B
B
X 100
HCI-TS
24.0000
9801 JPN
MFG. ID
PART NUMBER
OUTPUT FREQUENCY
COUNTRY OF ORIGIN
DATE CODE
DOT (INDICATING PIN 1)
45
KXO-HC/KHO-HC Series Crystal Clock Oscillators
HCMOS Drive - TTL or CMOS Compatible
ƒO: 1 to 72 MHz
SPECIFICATIONS: CMOS COMPATIBLE (KXO-HC-C/KHO-HC-C)
Parameters
Output Frequency
Code
fOUT
Frequency Precision
∆ f/f
Operating Temperature Range
Storage Temperature Range
Voltage
Electrical Current Consumption
TOPR
Tstr
VDD
IDD
Duty Cycle
“0” Level
Output
“1” Level
Rise and Fall Time
Time to Enable Disable
Rating
IIH
IIL
VIH
VIL
∆ f/f
Input Voltage
Aging
TEST CIRCUIT
>50
S:±25
0:±50
1:±100
0 to +70
-55~+125
5±0.25
80 max
45 to 55
0.1 VDD max
0.9 VDD min
10 max
100 max
10 max
-150 max
2.2 min
0.8 max
±5
45 to 55
0.1 VDD max
0.9 VDD min
6 max
100 max
10 max
-150 max
2.2 min
0.8 max
±5
%
V
V
nsec
nsec
µA
µA
V
V
ppm/yr
O
SY
VOL
VOH
T R, T F
Input Current
1 to 50
S:±25
0:±50
1:±100
0 to +70
-55~+125
5±0.5
50 max
Unit
MHz
ppm
ppm
ppm
°C
°C
V
mA
SHAPE OF OUTPUT WAVE
(KXO-HC-C/KHO-HC-C)
A
VDD
TF
8
(5)
1
(1)
V
7
(4)
f=>50MHz, CL=15pF
f=<50MHz, CL=50pF
1/2VDD level
At IOL=16mA
At IOH=-1mA
10% VDD to 90% VDD CL=50pF
Tristate Output
KXO
KHO
1
1
N.C. or Control
7
4
Case /GND
0.9V
8
5
Output
0.5V
14
8
+5.0V D.C.
TF
TR
H
KXO-HC
(KHO-HC)
+
0 to 70°C
4.5V to 5.5V
PIN CONNECTION
(KXO-HC-C/KHO-HC-C)
T.P.
14
(8)
Remarks
CL
50pF
0.1V
-
0.1µF
L
A
CL=50pF max
(Inclusive of test jig and
probe capacitance)
B
ENABLE/DISABLE FUNCTION CHART
Duty Ratio= A X 100
A+B
Pin 1
Pin 8
High or Open
Oscillation
Low
High Impedance
DIMENSIONS
KXO-HC
#1
KHO-HC
#7
#1
19max.
(.748)
21max.
(.827)
#14
12.2±0.5
(.480±0.2)
15.24±0.3
(.600±0.1)
#8
4- ø0.45
(.018)
5.08
(.200)
6.35±0.5
(.250±.02)
10.8
(.425)
#8
#4
0.8
(.031)
10.8
(.425)
0.8
(.031)
12.9
(.508)
7.62±0.3
(.300±0.1)
4.58±0.5
(.180±0.2)
11max.
(.433)
13max.
(.512)
12.9
(.508)
7.62
(.300)
5.08
(.200)
6.35
(.250)
4 - ø0.55max.
(.022)
#5
Unit: mm (inch)
46
386 Series Clock Oscillators
HCMOS Drive - CMOS Compatible
ƒO: 24, 32, 40, 50 MHz
FEATURES
HOW TO ORDER
1) Capable of driving the
80386 and surrounding
LSI directly up to 150pF
load
2) Replaces existing clock
genarator and/or buffer
3) 45/55 symmetry for all
standard frequencies
even at 150pF load
4) Enable/disable function
as standard
5) 25 pieces per tube
6) Sold in increments of 100
pieces
386-HC 1 - C S E - 40.0000M T
1
2
3
4
5
1 Type: 386 = 14 pin DIP
2 Frequency precision: 1 = ±100ppm
3 Output level/Duty cycle
CS = CMOS compatible/45 to 55%
4 Enable/disable function:
= without function, E = with function
5 Frequency
6 Packaging: T = Tube
6
SPECIFICATIONS (386-HC)
Parameters
Code
Rating
Unit
Output Frequency
fOUT
24, 32, 40
50
MHz
MHz
CL=150pFmax
CL=80pFmax
Frequency Precision
(Inclusive of Temp. Voltage variation)
∆f/f
1:±100
ppm
Ta=0~70°C
∆f/f
TOPR
TSTR
VDD
ICC
Sy
VOL
VOH
T R, T F
Aging Rate
Operating Temperature
Storage Temperature Range
Supply Voltage
Supply Current
Duty Ratio
Output
“0” Level
“1” Level
Rise and Fall Time
±5
0~+70
-55~+125
5±0.25
65 max
45~55
0.1VDD max
0.9VDD min
See Clock Time Table
100 max
100 max
10 max
-150 max
2.2 min
0.8 max
7
150
80
Enable/Disable Time
IIH
IIL
VIH
VIL
Current
Input
Voltage
Fan Out
CL
Load Capacitance
DIMENSIONS
Type E
Tristate Output
VDD= 5.25V
VDD=5.25V
f=12.0MHz~40MHz
f=40.1MHz~50MHz
12.2
(.408)
13
(.512)
4.58
(.180)
6.35
(.25)
PIN 14
7.62
(.300)
PIN 7
7.5
(.28)
0.8
(.031)
Cl=150pF, Ta=25°C
1/2 VDD level
IOL=12mA
IOL=-1mA
MARKINGS
PIN 1
4 – ø0.45
(.018)
ppm/yr
°C
°C
V
mA
%
V
V
nsec
nsec
nsec
µA
µA
V
V
TTL
pF
pF
Remarks
PIN 8
15.24
(.600)
21
(.828)
MFG. ID
386-HC1-CSE
PART NUMBER
32.0000 MHz
9601 Japan
OUTPUT FREQUENCY
COUNTRY OF ORIGIN
DATE CODE
DOT (INDICATING PIN 1)
Unit: mm (inch)
47
386 Series Clock Oscillators
HCMOS Drive - CMOS Compatible
TEST CIRCUIT
ƒO: 24, 32, 40, 50 MHz
PIN CONNECTION
T.P.
14
8
386
Function
1
N.C. or Control
7
Case GND
8
Output
14
VDD
A
386-HC1-CS
VDD
V
1
0.1µF
7
CL
150pF
or
80pF
CL: 150pF max (Inclusive of test JIG and probe capacitance)
CLOCK TIME TABLE (32MHz, 40MHz)
Frequency
32MHz
12a
40MHz
12b
Clock time (ns)
Min
Max
Min
Max
Clock high time t2a
9
-
8
-
VDD-0.8V
Clock high time t2b
5
-
5
-
2.0V
Clock low time t3a
9
-
8
-
Clock low time t3b
7
-
6
-
Clock tall time t4
-
7.5
-
8
Clock tall time t5
-
7.5
-
8
0.8V
t5
14
t3b
t3a
CLOCK TIME TABLE (50MHz)
Frequency
Clock time(ns)
50MHz
12a
Min
Max
Clock high time t2a
7
-
Clock high time t2b
4
-
Clock low time t3a
7
-
Clock low time t3b
5
-
Clock tall time t4
-
7
Clock tall time t5
-
7
12b
3.7V
2.0V
0.8V
48
t5
14
t3b
t3a
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AP-TD30M398-C