MAX9174 Maxim, MAX9174 Datasheet - Page 4
MAX9174
Manufacturer Part Number
MAX9174
Description
The MAX9174/MAX9175 are 670MHz, low-jitter, low-skew 1:2 splitters ideal for protection switching, loopback, and clock and signal distribution
Manufacturer
Maxim
Datasheet
1.MAX9174.pdf
(14 pages)
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670MHz LVDS-to-LVDS and Anything-to-LVDS
1:2 Splitters
AC ELECTRICAL CHARACTERISTICS
(V
age, V
to +85°C, unless otherwise noted. Typical values are at V
4
Note 1: Current into a pin is defined as positive. Current out of a pin is defined as negative. All voltages are referenced to ground
Note 2: Maximum and minimum limits over temperature are guaranteed by design and characterization. Devices are 100% tested at
Note 3: Tolerance on all external resistors (including figures) is ±1%.
Note 4: Guaranteed by design.
Note 5: AC parameters are guaranteed by design and characterization and are not production tested. Limits are set at ±6 sigma.
Note 6: C
Note 7: Pulse-generator output for differential inputs IN+, IN- (unless otherwise noted): f = 670MHz, 50% duty cycle, R
Note 8: Pulse-generator output for t
Note 9: t
Note 10: t
Note 11: Meets all AC specifications.
High-to-Low Propagation Delay
Low-to-High Propagation Delay
Added Deterministic Jitter
Added Random Jitter
Pulse Skew t
Output-to-Output Skew
Part-to-Part Skew
Rise Time
Fall Time
Power-Down Time
Power-Up Time
Maximum Data Rate
Maximum Switching Frequency
Switching Supply Current
PRBS Supply Current
CC
_______________________________________________________________________________________
= +3.0V to +3.6V, R
CM
except V
T
700ps, and t
0.8V
= 700ps (0% to 100%).
SKPP1
conditions.
ditions.
SKPP2
= |V
L
PARAMETER
A
includes scope probe and test jig capacitance.
= +25°C.
CC
ID
PLH
is the magnitude of the difference of any differential propagation delays between devices operating under identical
/2| to (2.4V - |V
is the magnitude of the difference of any differential propagation delays between devices operating over rated con-
), 50% duty cycle, V
TH
- t
, V
PHL
F
TL
= 700ps (0% to 100%). Pulse-generator output for single-ended inputs PD0, PD1: t
L
, V
= 100Ω±1%, C
ID
, V
ID
OD
/2|), MAX9175 input common-mode voltage V
, and ∆V
DJ
OH
SYMBOL
: |V
D
t
t
I
t
I
SKPP1
SKPP2
SKOO
CCSW
f
CCPR
t
t
t
= V
RMAX
MAX
PHL
PLH
t
SKP
t
t
t
t
PD
PU
DJ
RJ
t
OD
R
F
L
CC
= 5pF, differential input voltage |V
OD
| = 0.15V, V
.
+ 1.0V settling to V
Figures 4, 5
Figures 4, 5
Figures 4, 5 (Note 8)
Figures 4, 5
Figures 4, 5
Figure 6
Figures 4, 5 (Note 9)
Figures 4, 5 (Note 10)
Figures 4, 5
Figures 4, 5
Figures 7, 8
PD0, PD1 = L
PD0 = H, PD1 = L
PD1 = H, PD0 L
Figures 4, 5, V
(Note 11)
Figures 4, 5, V
f
f
D
IN
IN
R
= 670MHz
= 155MHz
= 800Mbps, 2
OS
CC
= 1.25V, data rate 800Mbps, 2
= +3.3V, |V
CONDITIONS
OD
OD
CC
H, Figures 7, 8
23
, V
H, Figures 7, 8
- 1 PRBS input
H, Figures 7, 8
OL
ID
250mV
250mV (Note 11)
| = 0.2V, V
= -1.0V settling to zero, f = 10kHz.
ID
CM
| = 0.15V to 1.2V, MAX9174 input common-mode volt-
= |V
CM
ID
= +1.25V, T
/2| to (V
23
- 1 PRBS, R
CC
1.33
1.33
MIN
110
110
800
670
A
- |V
= +25°C.) (Notes 5, 6, 7)
ID
O
/2|), PD_ = high, T
R
= 50Ω, t
TYP
2.38
2.39
257
252
0.4
10
14
10
18
92
92
55
35
37
= t
F
= 1.5ns (0.2V
R
MAX
3.23
3.23
= 700ps, and t
141
365
365
103
103
1.3
1.0
1.9
80
45
13
35
65
44
46
O
= 50Ω, t
A
ps
UNITS
ps
= -40°C
Mbps
MHz
CC
mA
mA
(RMS)
ps
ps
ps
ps
ns
ns
ns
ns
µs
ns
(P-P)
R
to
=
F
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