Download 3SWO-BT-100.000 Data Sheet

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
Document related concepts
no text concepts found
Transcript 
CLOCK OSCILLATORS
“SWO” series
Logic: TTL / HCMOS
Wave Form: Square wave
MERCURY
Since 1973
Besides low cost general purpose crystal clock oscillators Mercury also offers high quality and fieldproven application-specific oscillators for applications such as
♦ CPU, graphics, multimedia A/V clocks
♦ Fast Ethernet and Gigabit Ethernet clocks
♦ MPEG / DVD / HDTV clocks
♦ NTSC / PAL encoder/decoder clocks
♦ Laser engine pixel / set-top clocks
♦ PLL / synthesizer clocks
♦ Spread spectrum low EMI clocks
♦ Fibre channel and ADSL clocks
♦ OC-3, OC-12, OC-48 and OC-192 clocks ♦ SONET / SDH / ATM clocks
Mercury has the right oscillators to meet your specifications and your applications.
“SWO” Series General Specifications
Input Voltage (VDD)
Mercury Model
Frequency Range
Output Logic
Output Voltage HIGH “1”
Output Voltage LOW “0”
Rise Time / Fall Time
(0.1VDD ↔ 0.9 VDD)
TTL load
Fanout
CMOS load
TA=+25°C, VDD at specified voltage, CL=15 pF
VDD = +3.3 V D.C. ±10%
3SWO
1.0 ~125.0 MHz
TTL / HCMOS
2.97 V min.
0.33 V max.
VDD =+5.0 V D.C.±10%
5SWO
1.0 ~ 125.0 MHz
TTL / HCMOS
4.5 V min.
0.5 V max.
7 n sec. max.
10 n sec. max.
10 LS TTL gates max.
10 LS TTL gates max.
15 pF
15 pF
1.8 ~ 32 MHz: 15 mA max.
1.9 ~ 32 MHz: 25 mA max.
Current Consumption
32+~50 MHz: 16.5 mA max.
32+~50 MHz: 35 mA max.
50+~100 MHz: 35 mA max.
50+~100 MHz: 40 mA max.
Commercial
±25 ppm over 0°C to +70°C (Stability code is “A”)
(0°C to +70°C)
±50 ppm over 0°C to +70°C (Stability code is “B”)
Temperature code
±100 ppm over 0°C to +70°C (Stability code is “C”)
Frequency
is ‘C”
If non-standard please enter the desired stability after “C”. For example “C20”
(1)
Stability
represents ±20 ppm over 0 to +70°C
±25 ppm over -40°C to +85°C (Stability code is “D”)
Industrial
±50 ppm over -40°C to +85°C (Stability code is “E”)
(-40°C to +85°C)
±100 ppm over -40°C to +85°C (Stability code is “F”)
Temperature code
If non-standard please enter the desired stability after “I”. For example
is ‘I”
“I20” represents ±20 ppm over -40 to +85°C
Duty Cycle
50%±10%. (50±5% is also available)
1.0 ~ 32 MHz: 5 m sec. max.
Start-up Time (Ts)
32+ ~ 125 MHz: 10 m sec. max.
Note: Pad No. 1 is Tri-State by default for all SWO series. That is:
Pad 1
The output (pad No. 3) is active if no connection or voltage of 2.2V or greater is applied to pad 1.
Connection
The output (pad No. 3) is high impedance when voltage of 0.8V or lower is applied to pad 1.
Disable time is 150 n sec. max.; Enable time is 10 m sec. max.
Aging
±5 ppm per year max.
(1)
Inclusive of 25°C tolerance, operating temperature range, ±10% input voltage variation, load change, aging,
shock and vibration.
MERCURY
www.mercury-crystal.com
Taiwan: TEL (886)-2-2695-7099, FAX (886)-2-2695-7473, e-mail: [email protected]
U.S.A.: TEL (1)-909-466-0427, FAX (1)-909-466-0762, e-mail: [email protected]
MERCURY
Page 1 of 3
Date: Jan. 23, 2005
Rev. 2
CLOCK OSCILLATORS
“SWO” series
Logic: TTL / HCMOS
Wave Form: Square wave
MERCURY
Since 1973
Environmental Performance Specifications
RoHS Compliance
Storage temp. range
Humidity
Hermetic seal
Solderability
Reflow
Vibration
Shock
Pb (lead) free
-50°C to +100°C
85% RH, 85°C, 48 hours
Leak rate 2x10-8 ATM-cm3/sec max.
MIL-STD-202F method 208E
260°C for 10 sec.
MIL-STD-202F method 204, 35G, 50 to 2000 Hz
MIL-STD-202F method 213B, test condi. E, 1000GG ½ sine wave
Part Number Format and Example:
Example: 3HSWO-BT-80.000
Explanation: SWO clock oscillator, +3.3 V supply voltage, ±50 ppm frequency stability over 0 to +70°C, 80.000 MHz, Tristate option on pad 1.
"
3
SWO
—
"
"
B
T
"
—
80.000
"
—
S
n o
p q
r
s
n: Voltage codes: “25” for +2.5 V; “3” for +3.3 V
o: Product series p: Frequency stability code: “A” ~ “F” or custom. See table above.
q: “T”: Tri-state option on pad 1 (Tri-state is standard if not specified), leave blank if tri-state is not required.
r Frequency in MHz s Duty cycle option: Blank for 50%±10%. “S” for 50%±5%.
SWO OUTPUT WAVEFORM:
Tr
SWO Test Circuit:
Tf
VOH
90% Vcc
i
VOL
10% Vcc max.
TH
T
Duty Cycle = (TH / T)x100%
MERCURY
Page 2 of 3
Date: Jan. 23, 2005
Rev. 2
CLOCK OSCILLATORS
“SWO” series
Logic: TTL / HCMOS
Wave Form: Square wave
SWO Package Dimensions and Recommended Pad Layout:
MERCURY
Since 1973
unit mm[inches]
x4
5°
5.08[0.200]
2.2[0.086]
1.8[0.071]
0.
5
1.4
.2
R0
0.1
1.25
0.6
2.0[0.079]
0.55
5.00±0.15
7.00±0.15
5.08[0.200]
RECOMMENDED REFLOW SOLDERING PROFILE
MERCURY
Page 3 of 3
Date: Jan. 23, 2005
Rev. 2
Related documents
1. Crystal specification. The crystal frequency tolerance depends on
1. Crystal specification. The crystal frequency tolerance depends on
ch 16 Electricity Essential Questions
ch 16 Electricity Essential Questions
AN/GSM-397(V) Electronic Systems Test Set
AN/GSM-397(V) Electronic Systems Test Set
Quartz Crystal Oscillators Glossary of Terms
Quartz Crystal Oscillators Glossary of Terms
Temporal and Special Variance of chemical species in the
Temporal and Special Variance of chemical species in the
Resistance and Voltage Worksheet
Resistance and Voltage Worksheet
Mercury - Delapre Blog
Mercury - Delapre Blog
CDR - UCF EECS
CDR - UCF EECS
Producing and Measure Electricity (P1)
Producing and Measure Electricity (P1)
4.3 Notes - Seymour ISD
4.3 Notes - Seymour ISD
71866_02-FINAL TURN
71866_02-FINAL TURN