MC100ES6222TBR2 IDT, Integrated Device Technology Inc, MC100ES6222TBR2 Datasheet - Page 4
MC100ES6222TBR2
Manufacturer Part Number
MC100ES6222TBR2
Description
Manufacturer
IDT, Integrated Device Technology Inc
Type
Clock Dividerr
Datasheet
1.MC100ES6222TBR2.pdf
(11 pages)
Specifications of MC100ES6222TBR2
Number Of Clock Inputs
2
Mode Of Operation
Differential
Output Logic Level
ECL/PECL
Operating Supply Voltage (min)
-2.375/2.375V
Operating Supply Voltage (typ)
-2.5/-3.3/2.5/3.3V
Operating Supply Voltage (max)
-3.465/3.465V
Package Type
TQFP
Operating Temp Range
0C to 110C
Operating Temperature Classification
Commercial
Signal Type
ECL/PECL
Mounting
Surface Mount
Pin Count
52
Lead Free Status / RoHS Status
Not Compliant
IDT™ / ICS™ ECL/PECL CLOCK DIVIDER AND FANOUT BUFFER
MC100ES6222
LOW VOLTAGE, 1:15 DIFFERENTIAL, ECL/PECL CLOCK DIVIDER AND FANOUT BUFFER
Table 4. General Specifications
Table 5. PECL DC Characteristics (V
Clock Input Pair CLK0, CLK0, CLK1, CLK1 (PECL differential signals)
Clock Inputs MR, CLK_SEL, FSELA, FSELB, FSELC, FSELD (PECL single ended signals)
PECL Clock Outputs (QA[0:1], QA[0:1], QB[0:2], QB[0:2], QC[0:3], QC[0:3], QD[0:5], QD[0:5]
Supply Current and V
1. Output termination voltage V
2. Operating junction temperature impacts device life time. Maximum continuous operating junction temperature should be selected according
1. V
2. V
3. Input have internal pullup/pulldown resistors which affect the input current.
4. Equivalent to a termination of 50 Ω to V
5. I
Symbol
Symbol
θ
V
CDM
JA
I
HBM
to the application life time requirements (See application note AN1545 for more information). The device AC and DC parameters are
specified up to 110°C junction temperature allowing the MC100ES6222 to be used in applications requiring industrial temperature range. It
is recommended that users of the MC100ES6222 employ thermal modeling analysis to assist in applying the junction temperature
specifications to their particular application.
range and the input swing lies within the V
V
MM
V
V
EE
V
V
C
CC
θ
V
LU
V
CMR
I
I
T
PP
CMR
, θ
IN
IN
OH
JB
PP
OL
BB
TT
IN
IH
IL
J
(5)
calculation:
JC
(DC) is the minimum differential input voltage swing required to maintain device functionality.
(DC) is the crosspoint of the differential input signal. Functional operation is obtained when the crosspoint is within the V
Output Termination Voltage
ESD Protection (Machine Model)
ESD Protection (Human Body Model)
ESD Protection (Charged Device Model)
Latch-Up Immunity
Input Capacitance
Thermal Resistance
(junction-to-ambient, junction-to-board, junction-to-case)
Operating Junction Temperature
(continuous operation)
Differential Input Voltage
Differential Cross Point Voltage
Input Current
Input Voltage High
Input Voltage Low
Input Current
Output High Voltage
Output Low Voltage
Maximum Quiescent Supply Current without
Output Termination Current
Output Reference Voltage
BB
I
I
CC
CC
= (number of differential output used) x (I
= (number of differential output used) x (V
(1)
(3)
Characteristics
TT
= 0 V for V
Characteristics
(1)
CC
TT
(2)
.
CC
PP
(2)
= 2.5 V ± 5% or V
(DC) specification.
= 2.5 V operation is supported but the power consumption of the device will increase.
MTBF = 9.1 years
V
V
V
V
V
CC
CC
CC
CC
CC
Min
0.1
1.0
– 1.165
– 1.810
– 1.38
– 1.1
– 1.9
CC
OH
OH
= 3.3 V ± 5%, V
+ I
4
– V
OL
TT
V
V
) + I
CC
CC
) ÷ R
Typ
EE
– 1.005
– 1.705
96
See
4000
2000
Min
175
200
load
0
Table 9. Thermal Resistance
+ (V
EE
OL
V
V
V
= GND, T
V
V
V
CC
CC
V
CC
– V
CC
CC
CC
CC
±150
±150
Max
170
1.3
– 0.880
– 1.475
Typ
4.0
– 1.22
– 0.3
– 0.7
– 1.4
TT
– 2
) ÷ R
(1)
MC100ES6222 REV. 5 FEBRUARY 27, 2008
J
= 0°C to +110°C)
load
Unit
mA
µA
µA
V
V
V
V
V
V
V
+ I
ADVANCED CLOCK DRIVERS
Max
110
EE
.
Differential operation
Differential operation
V
V
I
I
V
I
OH
OL
BB
IN
IN
EE
= –5 mA
= 0.4 mA
= V
= V
= –30 mA
pins
°C/W
Unit
mA
pF
°C
IL
IL
V
V
V
V
Condition
or V
or V
(4)
Inputs
IN
IN
(4)
Condition
= V
= V
CMR
IH
IH
(DC)
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