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Lithium Niobate Modulators

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Zero-Chirp Intensity Modulators

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Parameter	Value
Operating Range^a	1525 - 1605 nm
PRBS^b Optical Extinction Ratio	13 dB
Bit Rate Frequency	9.953 Gb/s
Electrooptic Bandwidth (-3 dB)	10 GHz

^a See note below.
^b Pseudo Random Binary Sequence

Features

C- and L-Band Operation Range
300-Pin MSA Transponder Compatible Footprint
Titanium Indiffused X-Cut Lithium Niobate
Low Drive Voltage
Long-Term Bias Stability
Telcordia GR-468 Compliant
Integrated Photodetector

The LN81S-FC and LN56S-FC are zero-chirp LiNbO₃ intensity modulators with integrated photodiodes that are designed to be integrated into 300 pin MSA compatible transponders. Zero-Chirp modulators are fabricated from X-Cut Titanium Indiffused LiNb0₃, which allows for both arms of the Mach-Zehnder interferometer to be symmetric. This symmetry ensures that the modulated output of the intensity modulator is not also shifted in phase/frequency (chirped). A chirped signal will be spectrally broadened, which leads to greater chromatic dispersion and limits the WDM channel separation. Zero-Chirp intensity modulators are ideal for use in metro and long-haul DWDM applications requiring less than a 2 dB power penalty for ±1,200 ps/nm dispersion. The integrated photodetector can be used for optical power monitoring and modulator bias control, which eliminates the need for an external fiber tap.

The two X-Cut LiNbO3 intensity modulators available online are 10 GHz devices with a PM input fiber pigtail and an SM output fiber pigtail. Both are terminated with FC/PC connectors. The PM fiber is keyed to the slow-axis which is also aligned to the extraordinary mode.

For more information on custom configurations (i.e., fiber type, connectorization, etc.) and quotes, please contact Technical Support.

Note: The modulator is designed for use in the 1550 nm window. Using the modulator at another wavelength (e.g., visible light) may cause a temporary increase in loss that is not covered under warranty. For instance, the increase in loss caused by shorter wavelengths can be reversed by heating the modulator to 50 °C for an hour.

Parameter	Min	Typical	Max	Parameter	Min	Typical	Max
Operating Wavelength^a	1525 nm	-	1605 nm	Operating Case Temperature	0 °C		70 °C
DC Optical On/Off Extinction Ratio	20 dB	-	-	Optical Insertion Loss (Connectorized)	-	4.0 dB	5.0 dB
PRBS^b Optical Extinction Ratio	13 dB	-	-	EOL^d Insertion Loss Variation	-0.5 dB	-	0.5 dB
Bit Rate Frequency	9.953 Gb/s	-	-	Modulator Chirp Parameter	-0.1	-	0.1
E/O Bandwidth (-3 dB)	10 GHz	-	-	Optical Return Loss	40 dB	-	-
S11 (DC to 10 GHz)	-	-12 dB	-10 dB	PD Responsivity	0.1 mA/mW	-	0.5 mA/mW
RF Drive Voltage (PRBS)	-	5.5 V	6 V	Output Optical Power Monitoring Range	-5 dBm	-	10 dBm
V_π Bias Port^c	-	-	8 V	Output Monitor Variation	-0.5 dB	-	0.5 dB
EOL^d DC Bias Voltage Range	-8 V	-	8 V	Monitor Photodiode Reverse Bias Voltage	-5.5 V	-	-3.0 V

^aThe modulator is designed for use in the 1550 nm window. Using the modulator at another wavelength (e.g., visible light) may cause a temporary increase in loss that is not covered under warranty. For instance, the increase in loss caused by shorter wavelengths can be reversed by heating the modulator to 50 °C for an hour.
^b Pseudo Random Binary Sequence
^c Half-Wave Retardation DC Voltage
^d End of Life

Pin Label (Number)	Description
C (1)	Photodetector Cathode
A (2)	Photodetector Anode
B (3)	Modulator DC Bias
G (4)	Modulator Bias Ground

RF Modulation Input: SMP RF Connector

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Posted Comments:

Poster: tcohen

Posted Date: 2012-12-28 13:06:00.0

Response from Tim at Thorlabs: This is a Mg doped LiNbO3 crystal. This material will form color centers when exposed to light at 780nm, causing higher loss. This is temporary as charge carriers become displaced and trapped in defects, forming dipoles within the crystal, and may be removed by heating. For modulation, there are suitable RF amplifiers available from companies such as SHF, Triquint, Oki, Inphi, Centellax, Picosecond, etc. We will contact you directly to discuss your application in more detail.

Poster: gnishi

Posted Date: 2012-12-17 00:46:58.797

Dear Sir: I have a question on the modulator. (1) Can it be used for the modulation with 780nm wavelength? If so, is there any problem with such wavelength region or anything to concern for the opearation? (2) Do you have a product for driving this modulator? Thank you for advance.

Poster: bdada

Posted Date: 2011-11-01 12:37:00.0

Response from Buki at Thorlabs: Thank you for your feedback. Our production team will review your suggestion. Please contact TechSupport@thorlabs.com if you would like to discuss your application further.

Poster:

Posted Date: 2011-10-31 12:57:03.0

Please look at adding a SMA to SMP connector as you sell SMA cables but not SMP.

Poster: jjurado

Posted Date: 2011-06-15 09:54:00.0

Response from Javier at Thorlabs to jikim: Thank you very much for contacting us. At the moment, we do not have the capability to offer such a product. Free-space modulators do not have the capability to achieve 40 dB extinction ratio performance, and producing a fiber coupled LN-type modulator with free-space output would require a significant amount of development. Alternatively, we could supply a short length of PM fiber at the output pigtail, which could be then fitted with a collimator. However, we cannot commit to a 40 dB PER specification. I will contact you directly to get more details about your application.

Poster: jikim

Posted Date: 2011-06-14 15:17:06.0

Could you provide a customized phase modulator with a PM input (FC/APC) and a free space collimated output to obtain the linear polarization output with extinction ratio more than 40 dB and without ellipticity? In the fiber output there exists thermal effects.

Poster: jikim

Posted Date: 2011-03-08 16:13:26.0

Is a zero chirp intensity modulator (LN56S-FC) with a PM fiber in the output available? I would appreciate if you could send me a quotation for it.

Poster:

Posted Date: 2011-02-13 22:03:34.0

Poster: Thorlabs

Posted Date: 2010-10-07 15:08:16.0

Response from Javier at Thorlabs to Andres: I will contact you directly to discuss your application. We have to first consider your lasers wavelength and power output, among other parameters.

Poster: andres.aragoneses

Posted Date: 2010-10-07 11:57:04.0

Dear sir/madam I need an optic amplifier that multiplies the intensity of one laser an integer number of times (2, 3 or 4). Which is the product I need? thank you Aragoneses

Poster: Adam

Posted Date: 2010-05-06 16:24:13.0

A response from Adam at Thorlabs: We are working on getting these drawings on the web. In the meantime, if you need the drawings please email techsupport@THorlabs.com and we will provide with the necessary documentation.

Poster:

Posted Date: 2010-05-05 21:38:35.0

can you please provide mechanical drawings for those products?

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LN56S-FC

Zero-Chirp, 10 GHz Intensity Mod., Integrated PD, FC/PC

$1,275.00

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LN81S-FC

Zero-Chirp, 10 GHz Intensity Mod., Integrated PD and Replaceable GPO Conn,, FC/PC

$1,275.00

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0.7 Fixed Chirp Intensity Modulators

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Parameter	Value
Operating Range^a	1525 - 1605 nm
PRBS^b Optical Extinction Ratio	13 dB
Bit Rate Frequency	9.953 Gb/s
Electrooptic Bandwidth (-3 dB)	10 GHz

^a See note below.
^b Pseudo Random Binary Sequence

Features

C- and L-Band Operation Range
300-Pin MSA Transponder Compatible Footprint
Titanium Indiffused X-Cut Lithium Niobate
Low Drive Voltage
Long-Term Bias Stability
Telcordia GR-468 Compliant
Integrated Photodetector

The LN62S-FC and LN82S-FC are 0.7 fixed-chirp LiNbO₃ intensity modulators that are designed to be integrated into 300 pin MSA compatible transponders. They feature integrated photodiodes. Fixed-Chirp modulators are fabricated from Titanium Indiffused Z-Cut LiNb0₃, which creates in an inequality in the push-pull phase shift between the two arms of the Mach-Zehnder interferometer. This results in a phase/frequency shift (chirp) in the output in addition to the intensity modulation. These fixed chirp modulators down-chirp the pulse, which can be useful when the optical fiber in the network has a positive dispersion coefficient. The down-chirped pulse traveling through an optical fiber with a positive dispersion coefficient will be compressed until a minimum is reached. Beyond that point the dispersion term will dominate. Since chirping the pulse increases the spectral width of the pulse, the chirped pulse will eventually be broader than an unchirped pulse traveling through the same optical fiber. These fixed chirp intensity modulators are ideal for applications requiring improved power penalty (less than two dB for +1600 ps/nm) performance over zero-chirp devices. The integrated photodetector can be used for optical power monitoring and modulator bias control, which eliminates the need for an external fiber tap.

The 0.7 fixed-chirp Z-Cut LiNbO3 intensity modulators are 10 GHz devices with a PM input fiber pigtail and an SM output pigtail. Both are FC/PC-terminated. The PM fiber is slow-axis aligned. The RF input on the LN82S-FC has a field replaceable GPO connector.

For more information on custom configurations (i.e., fiber type, connectorization, etc.) and quotes, please contact Technical Support.

Parameter	Min	Typical	Max	Parameter	Min	Typical	Max
Operating Wavelength^a	1525 nm	-	1605 nm	Operating Case Temperature	0 °C	-	70 °C
DC Optical On/Off Extinction Ratio	20 dB	-	-	Optical Insertion Loss (Connectorized)	-	4.0 dB	5.0 dB
PRBS^b Optical Extinction Ratio	13 dB	-	-	EOL^d Insertion Loss Variation	-0.5 dB	-	0.5 dB
Bit Rate Frequency	9.953 Gb/s	-	-	Modulator Chirp Parameter	0.6	-	0.8
E/O Bandwidth (-3 dB)	10 GHz	-	-	Optical Return Loss	40 dB	-	-
S11 (DC to 10 GHz)	-	-12 dB	-10 dB	PD Responsivity	0.1 mA/mW	-	0.5 mA/mW
RF Drive Voltage (PRBS)	-	5.5 V	6 V	Output Optical Power Monitoring Range	-5 dBm	-	10 dBm
V_π Bias Port^c	-	3	8 V	Output Monitor Variation	-0.5 dB	-	0.5 dB
EOL^d DC Bias Voltage Range	-8 V	-	8 V	Monitor Photodiode Reverse Bias Voltage	-5.5 V	-	-3.0 V

^a The modulator is designed for use in the 1550 nm window. Using the modulator at another wavelength (e.g., visible light) may cause a temporary increase in loss that is not covered under warranty. For instance, the increase in loss caused by shorter wavelengths can be reversed by heating the modulator to 50 °C for an hour.
^b Pseudo Random Binary Sequence
^c Half-Wave Retardation DC Voltage
^d End of Life

Pin Label (Number)	Description
C (1)	Photodetector Cathode
A (2)	Photodetector Anode
B (3)	Modulator DC Bias
G (4)	Modulator Bias Ground

RF Modulation Input: SMP RF Connector

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Posted Comments:

Poster: Thorlabs

Posted Date: 2010-10-19 19:23:08.0

Response from Javier at Thorlabs to jikim: There are some slight differences between the x-cut (LN56/LN81) and z-cut (LN63/LN82) 10G intensity modulators, but the variation in the Vpi of the RF port is typically in the following range: DC to 1 GHz = 5V, 3GHz = 5.5V, 10 GHz = 7V. Note, the Vpi @ DC quoted in the specification sheet is for the DC bias port - not the RF port. The Vpi of the RF port is tested and specified with a 10Gb/s pseudo-random bit sequency (PRBS) which has a frequency spectrum that is roughly equivalent to a fixed frequency in the 3-4 GHz range, that is why the Vpi @ 3 GHz above is indicated as being equivalent to the Vpi for the 10 Gb/s PRBS.

Poster: jikim

Posted Date: 2010-10-19 11:00:14.0

According to the specification, the Vp is mentioned to be in the range of 3 to 8 V. Could you show the frequency dependence of such a voltage on the frequency (from 0 to 10 GHz)?

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LN63S-FC

Fixed-Chirp, 10 GHz Intensity Modulator, Integrated PD, FC/PC

$1,350.00

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LN82S-FC

Fixed-Chirp, 10 GHz Intensity Mod., Integrated PD and Replaceable GPO Connector, FC/PC

$1,350.00

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0.7 Fixed Chirp Intensity Modulator with Variable Optical Attenuator

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Parameter	Value
Operating Range^a	1525 - 1605 nm
VOA^b Attenuation	18 dB
PRBS^c Optical Extinction Ratio	13 dB
Bit Rate Frequency	9.953 Gb/s
Electrooptic Bandwidth (-3 dB)	10 GHz

^a See note below.
^b Variable Optical Attenuator
^c Pseudo Random Binary Sequence

Features

C- and L-Band Operation Range
300-Pin MSA Transponder Compatible Footprint
Titanium Indiffused X-Cut Lithium Niobate
Low Drive Voltage
Long-Term Bias Stability
Telcordia GR-468 Compliant
Variable Optical Attenuator with 18 dB Attenuation Range

The LN83S-FC is a 0.7 fixed-chirp LiNbO₃ intensity modulator with a variable optical attenuator (VOA) that is designed to be integrated into 300 pin MSA compatible transponders. Fixed-Chirp modulators are fabricated from Titanium Indiffused Z-Cut LiNb0₃, which creates in an inequality in the push-pull phase shift between the two arms of the Mach-Zehnder interferometer. This results in a phase/frequency shift (chirp) in the output in addition to the intensity modulation. These fixed chirp modulators down-chirp the pulse, which can be useful when the optical fiber in the network has a positive dispersion coefficient. The down-chirped pulse traveling through an optical fiber with a positive dispersion coefficient will be compressed until a minimum is reached. Beyond that point the dispersion term will dominate. Since chirping the pulse increases the spectral width of the pulse, the chirped pulse will eventually be broader than an unchirped pulse traveling through the same optical fiber. These fixed chirp intensity modulators are ideal for applications requiring improved power penalty (less than two dB for +1600 ps/nm) performance over zero-chirp devices.

The LN383S-FC modulator has an integrated VOA that allows for active attenuation of the optical output power over an 18 dB range. This can be useful when efficient management of network imbalances in DWDM optical links is needed, or in other applications.

For more information on custom configurations (i.e., fiber type, connectorization, etc.) and quotes, please contact Technical Support.

Parameter	Min	Typical	Max	Parameter	Min	Typical	Max
Operating Wavelength^a	1525 nm	-	1605 nm	Operating Case Temperature	0 °C	-	70 °C
DC Optical On/Off Extinction Ratio	20 dB	-	-	Optical Insertion Loss (Connectorized)	-	4.0 dB	5.5 dB
PRBS^b Optical Extinction Ratio	13 dB	-	-	EOL^d Insertion Loss Variation	-0.5 dB	-	0.5 dB
Bit Rate Frequency	9.953 Gb/s	-	-	Modulator Chirp Parameter	0.6	-	0.8
E/O Bandwidth (-3 dB)	10 GHz	-	-	Optical Return Loss	40 dB	-	-
S11 (DC to 10 GHz)	-	-12 dB	-10 dB	VOA Attenuation Range	15 dB	-	-
RF Drive Voltage (PRBS)	-	6.5 V	7 V	VOA V_π at DC	-	-	18 V
V_π Bias Port^c	-	3	8 V	Min to Max VOA Transmission Voltage Range	-16 V	-	16 V
EOL^d DC Bias Voltage Range	-10 V	-	10 V	VOA 3 dB Bandwidth	-	100 MHz	-

^a The modulator is designed for use in the 1550 nm window. Using the modulator at another wavelength (e.g., visible light) may cause a temporary increase in loss that is not covered under warranty. For instance, the increase in loss caused by shorter wavelengths can be reversed by heating the modulator to 50 °C for an hour.
^b Pseudo Random Binary Sequence
^c Half-Wave Retardation DC Voltage
^d End of Life

Pin Label (Number)	Description
C (1)	Not Connected
A (2)	VOA Control Voltage
B (3)	DC Bias
G (4)	Case Ground

RF Modulation Input: SMP RF Connector

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LN83S-FC

Fixed-Chirp, 10 GHz Intensity Mod., Integrated Variable Optical Attenuator, FC/PC

$1,750.00

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10 GHz Phase Modulator

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Parameter	Value
Operating Range^a	1525 - 1605 nm
Bit Rate Frequency	9.953 Gb/s
Electrooptic Bandwidth (-3 dB)	10 GHz

^a See note below.

Features

C- and L-Band Operation Range
300-Pin MSA Transponder Compatible Footprint
Titanium Indiffused Z-Cut Lithium Niobate
Low Drive Voltage
Telcordia GR-468 Compliant
Optional Integrated Output Polarizer

The LN53S-FC and LN65S-FC are Titanium Indiffused Z-Cut LiNbO₃ phase modulators that are designed to be integrated into 300 pin MSA compatible transponders. Phase modulators provide chirp controll in high-speed data communications. The LiNbO₃ is also ideal for coherent communications, sensing, all-optical frequency-shifting, and data encryption applications.

The two Z-Cut LiNbO3 phase modulators available online are 10 GHz devices with SM fiber pigtails terminated with SC/PC or FC/PC connectors. The LN65S-FC has an integrated optical polarizer positioned before the output port of the device. The integrated polarizer is not included with the LN53S-FC. With no polarizer, the device is capable of supporting both optical modes, ordinary and extraordinary. Each mode will have a different modulation efficiency; the modulation efficiency of the extraordinary mode will be approximately a factor of three greater than the ordinary mode. For those interested in supporting only the extraordinary mode, the internal polarizer would be desirable. For more information on custom configurations (i.e., fiber type, connectorization, etc.) and quotes, please contact Technical Support.

Parameter	Min	Typical	Max	Parameter	Min	Typical	Max
Operating Wavelength^a	1525 nm	-	1605 nm	Operating Case Temperature	0 °C	-	70 °C
Bit Rate Frequency	9.953 Gb/s	-	-	Optical Insertion Loss (Connectorized)	-	3.5 dB	4.5 dB
E/O Bandwidth (-3 dB)	10 GHz	-	-	EOL^b Insertion Loss Variation	-0.5 dB	-	0.5 dB
S11 (DC to 10 GHz)	-	-12 dB	-10 dB	Optical Return Loss	40 dB	-	-
RF Drive Voltage (PRBS)	-	4.5 V	5 V	V_π at DC^c	-	3.5 V	4 V

^a The modulator is designed for use in the 1550 nm window. Using the modulator at another wavelength (e.g., visible light) may cause a temporary increase in loss that is not covered under warranty. For instance, the increase in loss caused by shorter wavelengths can be reversed by heating the modulator to 50 °C for an hour.
^b End of Life
^c Half-Wave Retardation DC Voltage

Pin Label (Number)	Description
C (1)	Not Connected
A (2)	Not Connected
B (3)	Not Connected
G (4)	Not Connected

RF Modulation Input: SMP RF Connector

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Posted Comments:

Poster: jjurado

Posted Date: 2011-02-07 10:26:00.0

Response from Javier at Thorlabs to jikim: Thank you very much for submitting your inquiry. The LN53S does not rotate polarization. However, it functions as a variable waveplate, just like a Soleil-Babinet Compensator, when a voltage is applied to the modulator. The voltage changes the relative retardance between two orthogonal polarization modes. No intensity modulation would be observed if the input polarization is perfectly linear *and* if the linear polarization is launched on-axis to the PM input fiber. It is possible that the input polarization is not linear and/or not launched on axis to the modulator. Small misalignments between the PM fiber and LN crystal will create a small intensity modulated signal when passed through a linear analyzer. Also, use of single mode fiber at the output will allow the amplitude of the intensity modulated signal you observed to vary; just gently press on the fiber. The LN65S modulator, with an internal polarizer, will greatly suppress the undesired intensity modulation. If you need to retain the state of polarization at the output of the modulator, PM output fiber should be used. Also, this modulator can be supplied with FC/APC connectors.

Poster: jikim

Posted Date: 2011-02-04 17:31:35.0

I have a question on the output polarization of the phase modulator. A simple experiment has been performed. A single mode laser beam with linear polarization passes through a LN53S-FC modulator to which a sinusoidal signal at few tens of MHz is applied. The output of the modulator passes through a linear polarizer, i.e. a polarization analyzer. A photo diode (PD) observes the intensity of the transmitted beam through the polarizer. Then I could observe the same sinusoidal signal at the PD indicating that the output polarization of the modulator is varied with respect to the phase modulation. Such polarization variation of the output is absolutely not desirable in my application. When a PM fiber is used in the output port of the phase modulator instead of a SMF, is there any polarization change depending on the phase modulation? Or is there any suggestion from you to escape such a polarization change?

Poster: jikim

Posted Date: 2011-02-02 16:14:34.0

Could you provide a LN65S-FC with PM fibers in both input and output ports?

Poster: jjurado

Posted Date: 2011-02-02 11:54:00.0

Response from Javier at Thorlabs to jikim: Thank you very much for submitting your inquiry. We can certainly provide an LN65S-FC modulators with PM input and output fiber pigtails. I will contact you directly with pricing and lead time information.

Poster: Thorlabs

Posted Date: 2010-10-11 17:47:13.0

Response from Javier at Thorlabs to jikim: We can certainly quote a special FC/APC version of the LN53S-FC. I will contact you directly with more information.

Poster: jikim

Posted Date: 2010-10-11 13:02:11.0

Is it possible to make FC/APC instead of FC/PC connector of this phase modulator (LN53S-SC)?

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LN53S-FC

10 GHz Phase Modulator without Polarizer, FC/PC Connectors

$1,550.00

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LN65S-FC

10 GHz Phase Modulator with Polarizer, FC/PC Connectors

$1,550.00

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Additional EO Modulators

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Phase and Intensity Modulators

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