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SL28504BZI

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30P31-P31
SL28504
......................DOC #: SP-AP-0052 (Rev. AA) Page 22 of 31
Absolute Maximum Conditions
Parameter Description Condition Min. Max. Unit
V
DD
Core Supply Voltage 4.6 V
V
DD_A
Analog Supply Voltage 4.6 V
V
DD_IO
IO Supply Voltage 1.5 V
V
IN
Input Voltage Relative to V
SS
–0.5 4.6 V
DC
T
S
Temperature, Storage Non-functional –65 150 °C
T
A
Temperature, Operating
Ambient
Functional -40 85 °C
T
J
Temperature, Junction Functional 150 °C
Ø
JC
Dissipation, Junction to Case Mil-STD-883E Method 1012.1 20 °C/
W
Ø
JA
Dissipation, Junction to Ambient JEDEC (JESD 51) 60 °C/
W
ESD
HBM
ESD Protection (Human Body
Model)
MIL-STD-883, Method 3015 2000 V
UL-94 Flammability Rating At 1/8 in. V–0
MSL Moisture Sensitivity Level 1
Multiple Supplies: The Voltage on any input or I/O pin cannot exceed the power pin during power-up. Power supply sequencing is NOT required.
DC Electrical Specifications
Parameter Description Condition Min. Max. Unit
VDD core 3.3V Operating Voltage 3.3 ± 5% 3.135 3.465 V
V
IH
3.3V Input High Voltage (SE) 2.0 V
DD
+ 0.3 V
V
IL
3.3V Input Low Voltage (SE) V
SS
– 0.3 0.8 V
V
IHI2C
Input High Voltage SDATA, SCLK 2.2 V
V
ILI2C
Input Low Voltage SDATA, SCLK 1.0 V
V
IH_FS
FS_[A,B] Input High Voltage 0.7 1.5 V
V
IL_FS
FS_[A,B] Input Low Voltage V
SS
– 0.3 0.35 V
V
IHFS_C_TEST
FS_C, Input High Voltage 2 V
DD
+ 0.3 V
V
IMFS_C_NORMAL
FS_C, Input Middle Voltage 0.7 1.5 V
V
ILFS_C_NORMAL
FS_C, Input Low Voltage V
SS
– 0.3 0.35 V
I
IH
Input High Leakage Current Except internal pull-down resistors, 0 < V
IN
< V
DD
–5A
SEL_24.576M
_HI
GH
SEL_24.576M Input High
Voltage
Typ. 2.75V 2.40 VDD V
SEL_24.576M
_MI
D
SEL_24.576M Input Mid
Voltage
Typ. 1.65V 1.30 2.00 V
SEL_24.576M
_LO
W
SEL_24.576M Input Low
Voltage
Typ. 0.550V 0 0.900 V
I
IL
Input Low Leakage Current Except internal pull-up resistors, 0 < V
IN
< V
DD
–5 A
V
OH
3.3V Output High Voltage (SE) I
OH
= –1 mA 2.4 V
V
OL
3.3V Output Low Voltage (SE) I
OL
= 1 mA 0.4 V
V
DD IO
Low Voltage IO Supply Voltage 1 3.465
V
OH
3.3V Input High Voltage (DIFF) 0.70 0.90 V
V
OL
3.3V Input Low Voltage (DIFF) 0.40 V
I
OZ
High-impedance Output
Current
–10 10 A
C
IN
Input Pin Capacitance 1.5 5 pF
C
OUT
Output Pin Capacitance 6pF
SL28504
......................DOC #: SP-AP-0052 (Rev. AA) Page 23 of 31
L
IN
Pin Inductance 7 nH
V
XIH
Xin High Voltage 0.7V
DD
V
DD
V
V
XIL
Xin Low Voltage 0 0.3V
DD
V
I
DD3.3V
Dynamic Supply Current 250 mA
DC Electrical Specifications
Parameter Description Condition Min. Max. Unit
SL28504
......................DOC #: SP-AP-0052 (Rev. AA) Page 24 of 31
AC Electrical Specifications
Parameter Description Condition Min. Max. Unit
Crystal
T
DC
XIN Duty Cycle The device operates reliably with input
duty cycles up to 30/70 but the REF clock
duty cycle will not be within specification
47.5 52.5 %
T
PERIOD
XIN Period When XIN is driven from an external
clock source
69.841 71.0 ns
T
R
/T
F
XIN Rise and Fall Times Measured between 0.3V
DD
and 0.7V
DD
–10.0ns
T
CCJ
XIN Cycle to Cycle Jitter As an average over 1-s duration 500 ps
CPU at 0.7V
T
DC
CPUT and CPUC Duty Cycle Measured at 0V differential at 0.1s
45 55
%
T
PERIOD
100 MHz CPUT and CPUC Period Measured at 0V differential at 0.1s
9.99900 10.0100
ns
T
PERIOD
133 MHz CPUT and CPUC Period Measured at 0V differential at 0.1s
7.49925 7.50075
ns
T
PERIOD
166 MHz CPUT and CPUC Period Measured at 0V differential at 0.1s
5.99940 6.00060
ns
T
PERIOD
200 MHz CPUT and CPUC Period Measured at 0V differential at 0.1s
4.99950 5.00050
ns
T
PERIOD
266 MHz CPUT and CPUC Period Measured at 0V differential at 0.1s
3.74963 3.75038
ns
T
PERIOD
333 MHz CPUT and CPUC Period Measured at 0V differential
at 0.1s
2.99970 3.00030
ns
T
PERIOD
400 MHz CPUT and CPUC Period Measured at 0V differential at 0.1s
2.49975 2.50025
ns
T
PERIODSS
100 MHz CPUT and CPUC Period, SSC Measured at 0V differential at 0.1s
10.02406 10.02607
ns
T
PERIODSS
133 MHz CPUT and CPUC Period, SSC Measured at 0V differential at 0.1s
7.51804 7.51955
ns
T
PERIODSS
166 MHz CPUT and CPUC Period, SSC Measured at 0V differential at 0.1s
6.01444 6.01564
ns
T
PERIODSS
200 MHz CPUT and CPUC Period, SSC Measured at 0V differential at 0.1s
5.01203 5.01303
ns
T
PERIODSS
266 MHz CPUT and CPUC Period, SSC Measured at 0V differential at 0.1s
3.75902 3.75978
ns
T
PERIODSS
333 MHz CPUT and CPUC Period, SSC Measured at 0V differential at 0.1s
3.00722 3.00782
ns
T
PERIODSS
400 MHz CPUT and CPUC Period, SSC Measured at 0V differential at 0.1s
2.50601 2.50652
ns
T
PERIODAbs
100 MHz CPUT and CPUC Absolute
period
Measured at 0V differential at 1 clock
9.91400 10.0860
ns
T
PERIODAbs
133 MHz CPUT and CPUC Absolute
period
Measured at 0V differential at 1 clock
7.41425 7.58575
ns
T
PERIODAbs
166 MHz CPUT and CPUC Absolute
period
Measured at 0V differential @ 1 clock
5.91440 6.08560
ns
T
PERIODAbs
200 MHz CPUT and CPUC Absolute
period
Measured at 0V differential @ 1 clock
4.91450 5.08550
ns
T
PERIODAbs
266 MHz CPUT and CPUC Absolute
period
Measured at 0V differential @ 1 clock
3.66463 3.83538
ns
T
PERIODAbs
333 MHz CPUT and CPUC Absolute
period
Measured at 0V differential @ 1 clock
2.91470 3.08530
ns
T
PERIODAbs
400 MHz CPUT and CPUC Absolute
period
Measured at 0V differential @ 1 clock
2.41475 2.58525
ns
T
PERIODSSAbs
100 MHz CPUT and CPUC Absolute
period, SSC
Measured at 0V differential @ 1 clock
9.91406 10.1362
ns
T
PERIODSSAbs
133 MHz CPUT and CPUC Absolute
period, SSC
Measured at 0V differential @ 1 clock
7.41430 7.62340
ns
T
PERIODSSAbs
166 MHz CPUT and CPUC Absolute
period, SSC
Measured at 0V differential @ 1 clock
5.91444 6.11572
ns
T
PERIODSSAbs
200 MHz CPUT and CPUC Absolute
period, SSC
Measured at 0V differential @ 1 clock
4.91453 5.11060
ns
T
PERIODSSAbs
266 MHz CPUT and CPUC Absolute
period, SSC
Measured at 0V differential @ 1 clock
3.66465 3.85420
ns
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30P31-P31

SL28504BZI

Mfr. #:
Buy SL28504BZI
Manufacturer:
Silicon Labs
Description:
Clock Generators & Support Products Syst Clock Intel Eaglake
Lifecycle:
New from this manufacturer.
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