MAX3935(2002) 데이터 시트보기 (PDF) - Maxim Integrated
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MAX3935 Datasheet PDF : 14 Pages
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10.7Gbps EAM Driver
CLK+
CLK-
DATA-
DATA+
tSU
tHD
VIS = 0.15V
TO 1.0V
VIS = 0.15V
TO 1.0V
(DATA+) - (DATA-)
VID = 0.3V
TO 2.0V
VOUT
0.6V
TO 3.0V
Figure 2. Required Input Signal, Setup/Hold-Time Definition
and Output Polarity
Optional Input Data Retiming
To eliminate pattern-dependent jitter in the input data,
connect a synchronous differential clock signal to the
CLK+ and CLK- inputs, and the RTEN control input
should be tied low. The input data is retimed on the ris-
ing edge of CLK+. If RTEN is tied high or left floating,
the retiming function is disabled and the input data is
directly connected to the output stage. Leave CLK+
and CLK- open when retiming is disabled.
Pulse-Width Control
The pulse-width control circuit can be used to minimize
pulse-width distortion. The differential voltage between
PWC+ and PWC- adjusts the pulse-width compensa-
tion. When PWC+ and PWC- are left open, the pulse-
width control circuit is automatically disabled.
Modulation Output Enable
The MAX3935 incorporates a modulation current
enable input. When MODEN is low, the modulation out-
put (MOD) is enabled. When MODEN is high or floating,
the output is disabled. In the disabled condition, the
modulation output sinks current to keep the EAM mod-
ule in the high-absorption state. The typical EAM
enable time is 2ns, and the typical disable time is 5ns.
Current Monitors
The MAX3935 features a bias-current monitor output
(BIASMON) and a modulation-current monitor output
(MODMON). The voltage at BIASMON is equal to (IBIAS
✕ RBIAS) + VEE, and the voltage at MODMON is equal
to (IMOD ✕ RMOD) + VEE. IBIAS and IMOD are shown in
Figure 3. The internal resistors RBIAS and RMOD are
7.5Ω and 3Ω, respectively (±10%). Connect BIASMON
and MODMON to the inverting input of an op amp to
program the bias and modulation current (see Design
Procedure).
Design Procedure
Programming the Modulation Voltage
The EAM modulation voltage results from IMOD passing
through the EAM impedance in parallel with the internal
75Ω termination resistor.
VMOD
≈ IMOD
×
ZEAM
ZEAM
× 75Ω
+ 75Ω
To program the desired modulation current, connect
the inverting input of an op amp (see the Typical
Application Circuit) to MODMON and connect the out-
put to MODSET. Connect the positive op amp voltage
supply to ground and the negative supply to VEE. The
modulation current is set by connecting a reference
voltage VMODREF to the noninverting input of the op
amp. See the Modulation Voltage vs. VMODREF
graph in the Typical Operating Characteristics to select
the value of VMODREF that corresponds to the required
modulation current.
IMOD
=
VMODREF
3Ω
Programming the Bias Voltage
The EAM bias voltage results from IBIAS passing
through the EAM impedance in parallel with the internal
75Ω termination resistor.
VBIAS
≈
IBIAS
×
ZEAM
ZEAM
×
+
75Ω
75Ω
To program the desired EAM bias current, connect the
inverting input of an op amp (see the Typical Application
Circuit) to BIASMON and connect the output to BIASSET.
Connect the positive op amp voltage supply to ground
and the negative supply to VEE . The EAM bias current is
set by connecting a reference voltage VBIASREF to the
noninverting input of the op amp. See the Bias Voltage
vs. VBIASREF graph in the Typical Operating
Characteristics to select the value of VBIAS that corre-
sponds to the required EAM bias voltage.
8 _______________________________________________________________________________________
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