10Gbps Tunable SFP+ Optical Transceiver, ZR

10Gbps Tunable SFP+ Optical Transceiver, ZR
10Gbps Tunable SFP+ Optical Transceiver,
ZR, 80km
Features
• SFF-8431 MSA Revision 4.1 compliant
• SFF-8690 MSA Revision 1.4 compliant
• Full C-band tunable laser source
• 50 GHz ITU channel spacing
• 80 km reach
• Operating temperature range of −5 to 70°C
• Maximum power dissipation of 1.5 W
• RoHS 6/6 compliant
• Supports digital diagnostic monitoring
Applications
• Wide area networks (WAN)
• Local area networks (LAN)
• Storage area networks (SAN)
• Ethernet switches and applications
• FC switches and applications
48383 Fremont Blvd, Ste 116
Fremont, CA 94538, USA
510.687.0488 office
510.687.0098 fax
titanphotonics.com
Page 1 of 5
Version 2.0
All rights reserved.
1.1 Absolute Maximum Ratings
Parameter
Symbol
Ratings
Unit
Storage temperature
TST
−40 to +85
°C
Relative humidity
RH
5 to 85 (noncondensing)
%
Static electrical discharge (human body model)
ESD
1000
V
VCCT, VCCR
−0.3 to 4.0
V
Pdth
+4
dBm
Power supply voltages
Receive input optical power (damage threshold)
1.2 Operating Conditions
Parameter
Operating case temperature
Power supply voltages
Receiver wavelength range
Symbol
TOP
Min
Max
Unit
–5
+70
°C
VCCT, VCCR
λ
3.135
3.465
V
1528.38
1568.77
nm
1.3 Low-Speed Electrical and Power Characteristics
Parameter
Symbol
Min.
Typ.
Max.
Supply Currents and Voltages
Voltage
VCCT, VCCR
3.135
3.3
3.465
Unit Notes
V
With respect to GND
Instantaneous operating peak current
600
mA Per supply pin VCCT and VCCR
Sustained operating peak current
500
mA Per supply pin VCCT and VCCR
1.5
W
Power dissipation
Low-Speed Control and Sense Signals
Outputs (Tx_Fault, Rx_LOS)
Inputs (Tx_Disable, RS0, RS1)
SCL and SDA inputs
Pwr
Compliant with SFF-8431
Compliant with SFF-8431
VOL
−0.3
0.4
V
IOH
−50
37.5
μA Measured with a 4.7 kΩ load pulled up to
VIL
−0.3
0.8
V
VIH
2
VCC3+0.
3
V
VIL
−0.3
VCC3*0.
3
V
VCC3+0.
5
V
VIH
VCC3*0.7
At 0.7 mA
VCChost1
Pulled up in module to VCCT
Pulled up on host to Vcc_host 1 (typical 4.7 –
10 kΩ)
1. Vcc_host (min) 3.135 V – (max) 3.465 V
48383 Fremont Blvd, Ste 116
Fremont, CA 94538, USA
510.687.0488 office
510.687.0098 fax
titanphotonics.com
Page 2 of 5
Version 2.0
All rights reserved.
1.4 High-Speed Electrical Specifications
Parameter
Symbol
Min.
Typ.
Max.
Unit
0.10
UI (p-p)
UJ
DDPWS
0.023
0.055
UI (rms)
TJ
0.28
UI (p-p)
X1
0.12
UI
X2
0.33
UI
Transmitter Electrical Input Jitter from Host at B
Data-dependent jitter
DDJ
Uncorrelated jitter
Data-dependent pulse width shrinkage
jitter
Total 1jitter
Eye mask
Y1
95
UI (p-p)
350
100
mV
Ω
ps
Total jitter
TJ
0.70
UI
99% jitter
J2
0.42
UI
Eye mask
X1
0.35
UI
Y1
Mask hit ratio of
5x10−5
mV
Y2
Input impedance, differential
Limiting Module Receiver Electrical Output Jitter to Host at C
Output rise and fall time (20% to 80%)
28
r, Tf
Notes
Notes
65
mV
Y2
425
mV
Rx input power
at −23 dBm
Mask hit ratio
of 1x10−12
1.5 Optical Transmitter Characteristics
Parameter
Average optical power
Extinction ratio
Wavelength range
Frequency range
Frequency center spacing
Frequency stability (BOL)
Frequency stability (EOL)
Channel tuning time
Side mode suppression ratio
Jitter generation
4 MHz to 80 MHz
Symbol
Pavg
ER
λc
ƒc
Min.
–1
9.0
1528.38
191.1
Typ.
50
ƒc –1.5
ƒc –2.5
SMSR
35
20 kHz to 80 MHz
Spectral width
Relative intensity noise
RIN
Return loss
48383 Fremont Blvd, Ste 116
Fremont, CA 94538, USA
24
510.687.0488 office
510.687.0098 fax
titanphotonics.com
Max.
3
Unit
Notes
dBm
dB
1568.77 nm
196.15 THz
GHz
ƒc +1.5 GHz
ƒc +2.5 GHz
50
ms
Any channel to any channel
dB
UI (p-p)
0.1
0.3
UI (p-p)
200
pm
–130
dB/Hz
At –20 dB, 0.01 nm RBW
dB
Page 3 of 5
Version 2.0
All rights reserved.
1.6 Optical Receiver Characteristics
Parameter
Receiver overload
Receiver reflectance
LOS assert
LOS deassert
LOS hysteresis
Symbol
Pmax
Rrx
Plos_on
Plos_off
Min.
−7
Typ.
−27
−33.5
−26
4
Rx Sensitivity
0.5
Data Rate (Gbps)
9.95, 10.3, 10.5
10.709
11.1
11.3
Rx
Sensitivity
0 ps/nm
BER
1x10−12
1x10−4
1x10−4
1x10−4
Max.
–400 to +1450
ps/nm
Max
–23
–27
–27
–26.5
Max
–21
–25
–25
–24
Unit
dBm
dB
dBm
dBm
dB
Unit
dBm
dBm
dBm
dBm
1.7 OSNR Characteristics with External CDR
Data Rate (Gbps)
10.709
BER
1x10−4
1x10−4
10.709
11.1
Dispersion
(ps/nm)
Min
Max
0
–18
–7
16
–18
–7
19
–18
–7
17
–18
–7
20
–400 to +1450
1x10−4
1x10−4
11.1
Rx Power
Range (dBm)
0
–400 to +1450
OSNR (dB)
1.8 Digital Diagnostic Monitoring Accuracy
Parameter
Transceiver internal temperature
Transceiver internal supply voltage
Transmitter bias current
TX output optical power
RX input optical power
48383 Fremont Blvd, Ste 116
Fremont, CA 94538, USA
510.687.0488 office
510.687.0098 fax
Symbol
ΔDDM_Tint
ΔDDM_Vint
ΔDDM_Ibias
ΔDDM_PTx
ΔDDM_PRx
Max.
±3
±3
±10
±3
±3
titanphotonics.com
Unit
°C
%
%
dB
dB
Notes
Between Rx overload and sensitivity
levels
Page 4 of 5
Version 2.0
All rights reserved.
1.9 Timing Requirement of Control and Status I/O
Parameter
Symbol
Min.
Max.
Unit Notes
Tx_Disable assert time
t_off
100
µs
Tx_Disable negate time
t_on
50
ms
Time to initialize 2-wire interface
t_2w_start_up
300
ms
From power on or hot plug
Time to initialize
t_start_up_cooled
90
s
From power on or hot plug
Tx_Fault assert
Tx_Fault_on _cooled
50
ms
Tx_Fault reset
Tx_Fault_reset
From occurrence of fault to
assertion
of Tx_Fault
Time Tx_Disable
must be held
10
µs
Rising edge of Tx_Disable to fall of
output signal below 10% of
nominal
Falling edge of Tx_Disable to
rise of output signal above
90% of nominal
high to reset Tx_Fault
Rx_LOS assert delay
t_loss_on
100
µs
From occurrence of loss of
signal to assertion of Rx_LOS
RX_LOS negate delay
t_loss_off
100
µs
From occurrence of return of
signal to negation of RX_LOS
T-SFP+ Transceiver Mechanical Diagram
Ordering information
Part Number
Product Description
TSFP+C11H61
48383 Fremont Blvd, Ste 116
Fremont, CA 94538, USA
10Gbps Tunable SFP+ DWDM 50GHz C-band, C-temp
510.687.0488 office
510.687.0098 fax
titanphotonics.com
Page 5 of 5
Version 2.0
All rights reserved.
Was this manual useful for you? yes no
Thank you for your participation!

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

Download PDF

advertising