DATASHEETS 

DATASHEETS

DESIGN HOUSE, MEMS-FAB AND ASSEMBLY LINE UNDER THE SAME ROOF

Sercalo skills span the entire production process, from in-house MEMS chip design and qualification to manufacturing and assembly, Sercalo offers personalized services for the design of custom optical MEMS. All products are designed, manufactured, and certified "Swiss Made".

MEMS SWITCHES (26 Documents)
Title Description Download
SXLA/SXNA | REV. 90-1053-12 SXLA/SXNA | REV. 90-1053-12
 685.89 KB
 04-07-2021
MEMS SWITCHES SXLA/SXNA | REV. 90-1053-12 The miniature SX switch is available as latching variant, where a bistable suspension mechanism keeps the last selected state in power off. The non-latching type (i.e. SXNA) is not recommended for new designs. View   Download ( pdf )
SL1x2 | Rev. 90-1004-2 SL1x2 | Rev. 90-1004-2
 225.17 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SL1x2, 2x2 and 1x4 | Rev. 90-1004-2 ​The SN series are fast, non-latching MEMS switches. Available in configurations from 1x2, 2x2 and 1x4, they are the best choice where low Insertion Loss and low PDL are most important.  View   Download ( pdf )
SLTS 1x1, 2x1, 2x2 | Rev. 90-1036-4 SLTS 1x1, 2x1, 2x2 | Rev. 90-1036-4
 1.23 MB
 04-07-2021
FIBER OPTICAL MEMS SWITCH SLTS VARIANT WITH POSITION MONITOR | Rev. 90-1036-4 The SLTS series are opto-mechanical latching switches for the most demanding applications in fiber optic communication networks. View   Download ( pdf )
SC1xN | Rev. 90-1180-15 SC1xN | Rev. 90-1180-15
 377.79 KB
 05-05-2021
FIBER OPTICAL MEMS SWITCH SC1xN | Rev. 90-1180-15 The component is compliant to Telcordia 1221 reliability standards and RoHS requirements 2015/863/EU. View   Download ( pdf )
mSC1xN | Rev. 90-1180-15 mSC1xN | Rev. 90-1180-15
 665.24 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCH mSC1xN | Rev. 90-1180-15 The hermetically sealed MEMS and the laser welded fiber collimator guarantee broad temperature range and superior long-term stability. View   Download ( pdf )
rSC1xN | Rev. 90-1180-15 rSC1xN | Rev. 90-1180-15
 473.73 KB
 04-07-2021
FIBER OPTICAL MEMS rSC1xN | Rev. 90-1180-15 The component is compliant to Telcordia 1221 reliability standards and RoHS requirements 2015/863/EU. View   Download ( pdf )
bcSC1xN | Rev. 90-1180-15 bcSC1xN | Rev. 90-1180-15
 552.4 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES bcSC1xN | Rev. 90-1180-15 The miniature packages withstand rugged environments and is well suited for direct mounting on printed circuit boards. View   Download ( pdf )
SCBU 1xN, 2xN, NxM | Rev. 90-1207-6 SCBU 1xN, 2xN, NxM | Rev. 90-1207-6
 657.46 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SCBU 1xN, 2xN, NxM | Rev. 90-1207-6 The optical networks can be based on a strictly non-blocking matrix (from 4x4 up to 16x16 ports) or on a tree structure (up to 1x1116 ports). View   Download ( pdf )
SXLT/SXNT | Rev. 90-1045-8 SXLT/SXNT | Rev. 90-1045-8
 299.37 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SXLT/SXNT | Rev. 90-1045-8 The switch offers the smallest size, ease of integration and the established solid state reliability of Sercalo’s MEMS components. Sercalo's SXNT and SXLT series are fast switches for regular Test and Measurement applications​. View   Download ( pdf )
SN 1xN | Rev. 90-1011-7 SN 1xN | Rev. 90-1011-7
 2.8 MB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SN FOR SPECIALTY FIBERS OR POLARIZATION | Rev. 90-1011-7 The switch mechanism is available in either latching or non latching variants and has a very fast response time below 1 ms and below 1.5 dB insertion loss. View   Download ( pdf )
SW1x2 | Rev. 90-1000-6 SW1x2 | Rev. 90-1000-6
 946.15 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x2 | Rev. 90-1000-6 The highly reliable switching mechanism uses an integrated micromirror and features below 1 ms switching time and only 0.5 dB insertion loss. View   Download ( pdf )
SW1x4 | Rev. 90-1006-7 SW1x4 | Rev. 90-1006-7
 2.1 MB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x4 | Rev. 90-1006-7 The SW 1x4 switch is a very fast opto-mechanical switch working over both telecom wavelength windows from 1240 nm to 1600 nm. The MEMS switching structure achieves repeatability of 0.001 dB and shows a very flat Insertion Loss over the full spectrum of the fiber.  View   Download ( pdf )
SW1x8 | Rev. 90-1007-6 SW1x8 | Rev. 90-1007-6
 895.08 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x8 | Rev. 90-1007-6 The component makes an optical connection between an optical port and either one of 8 input or output lines. The highly reliable switching mechanism use integrated micro-mirrors and  features below 1 ms switching time and below 1.2 dB insertion loss. The MEMS switching structure achieves repeatability of 0.001 dB and shows a very flat Insertion Loss over the full spectrum of the fiber.  View   Download ( pdf )
SW1x13 | Rev. 90-1028-3 SW1x13 | Rev. 90-1028-3
 435.16 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x13 | Rev. 90-1028-3 The component makes an optical connection between an optical port and either one of 13 input or output lines. The switch is powered by a 5 V supply voltage. A 5 V TTL or CMOS drive signal is used to control the switching state. View   Download ( pdf )
SW1x16 | Rev. 90-1033-2 SW1x16 | Rev. 90-1033-2
 300.57 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x16 | Rev. 90-1033-2 The component makes an optical connection between an optical port and either one of 16 input or output lines. The highly reliable switching mechanism use integrated micro-mirrors and features below 1 ms switching time and below 1.5 dB insertion loss. The switch is powered by a 5 V supply voltage. A 5 V TTL or CMOS drive signal is used to control the switching state. View   Download ( pdf )
SW1x24 | Rev. 90-1081-2 SW1x24 | Rev. 90-1081-2
 244.68 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x24 | Rev. 90-1081-2 The component makes an optical connection between an optical port and either one of 24 input or output lines. The highly reliable switching mechanism use integrated micro mirrors and features below 1 ms switching time and below 2.0 dB insertion loss. View   Download ( pdf )
SW1x32 | Rev. 90-1140-2 SW1x32 | Rev. 90-1140-2
 249.57 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x32 | Rev. 90-1140-2 The component makes an optical connection between an optical port and either one of 32 input or output lines. The highly reliable switching mechanism use integrated micro-mirrors and features below 1 ms switching time and below 2.5 dB insertion loss. The switching mechanism offers the reliability of a solid state device; it neither wears out nor degrades over time. Even after billions of cycles, the switching quality stays constant. View   Download ( pdf )
SW2x2 | Rev. 90-1005-7 SW2x2 | Rev. 90-1005-7
 262.56 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW2x2 | Rev. 90-1005-7 The component is designed for optical cross connect switching in single mode fiber networks. The highly reliable switching mechanism uses an integrated micromirror and features 0.5 ms switching time and only 0.5 dB insertion loss. Operated by an electrostatic actuator, the switch features fast switching below 1 ms and high crosstalk attenuation above 50 dB. The Sercalo non-latching SW switch modules are fast, and reliable switches designed for single mode fiber communication networks. The device is based on the latest silicon technology and uses a micro-mechanical mirror to switch light.   View   Download ( pdf )
SW1x2MM | Rev. 90-1021-3 SW1x2MM | Rev. 90-1021-3
 1.05 MB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x2MM | Rev. 90-1021-3 The highly reliable switching mechanism uses an integrated micromirror and features fast switching time below 4 ms and below 0.9 dB insertion loss. View   Download ( pdf )
SW1x4MM | Rev. 90-1023-2 SW1x4MM | Rev. 90-1023-2
 373.11 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x4MM | Rev. 90-1023-2 The highly reliable switching mechanism uses integrated micro-mirrors and features fast switching time below 5 ms and below 1.5 dB insertion loss. The 1x4 switch is a very fast opto-mechanical switch working over the spectrum from 700 nm to 1700 nm. View   Download ( pdf )
SW1x8MM | Rev.  90-1024-2 SW1x8MM | Rev. 90-1024-2
 253.92 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x8MM | Rev.  90-1024-2 The highly reliable switching mechanism uses integrated micro-mirrors and features fast switching time below 5 ms and below 2 dB insertion loss. The SW 1x8 switch is a very fast opto-mechanical switch working over the spectrum from 700 nm to 1700 nm. View   Download ( pdf )
SW1x13MM | Rev. 90-1065-2 SW1x13MM | Rev. 90-1065-2
 244.87 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x13MM | Rev. 90-1065-2 The component makes an optical connection between an optical port and either one of 13 input or output lines. The highly reliable switching mechanism uses integrated micro-mirrors and features below 10 ms switching time and below 1.4 dB insertion loss. View   Download ( pdf )
SW1x16MM | Rev. 90-1034-2 SW1x16MM | Rev. 90-1034-2
 247.6 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x16MM | Rev. 90-1034-2 The component makes an optical connection between an optical port and either one of 16 input or output lines. The switch is built by cascading 1x2 switches which are qualified according to Telcordia GR1221. View   Download ( pdf )
SW1x24MM | Rev. 90-1081-1 SW1x24MM | Rev. 90-1081-1
 114.75 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x24MM | Rev. 90-1081-1 The highly reliable switching mechanism use integrated micro mirrors and features below 1 ms switching time and only 2.0 dB insertion loss. The switching mechanism offers the reliability of a solid state device; it neither wears out nor degrades over time. View   Download ( pdf )
SW1x32MM | Rev. 90-1141-2 SW1x32MM | Rev. 90-1141-2
 248.55 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW1x32MM | Rev. 90-1141-2 The component makes an optical connection between an optical port and either one of 32 input or output lines. The highly reliable switching mechanism use integrated micro-mirrors and features below 20 ms switching time and below 2.0 dB insertion loss. View   Download ( pdf )
SW2x2MM | Rev. 90-1020-3 SW2x2MM | Rev. 90-1020-3
 424.81 KB
 04-07-2021
FIBER OPTICAL MEMS SWITCHES SW2x2MM | Rev. 90-1020-3 The highly reliable switching mechanism uses an integrated micromirror and features fast switching time below 4 ms and below 1.0 dB insertion loss. View   Download ( pdf )
MEMS MIRRORS (4 Documents)
Title Description Download
MM2536-2-15 | Rev. 90-1192-6 MM2536-2-15 | Rev. 90-1192-6
 201.22 KB
 04-07-2021
MEMS Mirror MM2536-2-15 | Rev. 90-1192-6 The 2D devices are operated in open loop and are currently available with a mirror has a reflective surface of 2.5x3.6mm. It's best suited in applications where small size and low power consumption are important. View   Download ( pdf )
MM160110-2-15  | Rev. 90-1221-2 MM160110-2-15 | Rev. 90-1221-2
 191.34 KB
 04-07-2021
MEMS MIRROR MM160110-2-15  | Rev. 90-1221-2 The 2-D mirror has a large reflective surface of 16x11mm. Using magnetic actuation, the deflection angle is set linearly with the driving current. As an option, the device could include an internal optical feedback sensor for closed loop actuation. View   Download ( pdf )
TM10  | Rev. 90-1144-7 TM10 | Rev. 90-1144-7
 167.94 KB
 04-07-2021
MEMS ELECTROSTATIC MICRO MIRRORS TM10  | Rev. 90-1144-7 To avoid an optical feedback loop, the micro mirror is designed to minimize effects such as drift, hysteresis and temperature dependent performance. The angle is set using electrostatic actuation. View   Download ( pdf )
TM2520 | Rev. 90-1144-9 TM2520 | Rev. 90-1144-9
 1.79 MB
 04-07-2021
MEMS ELECTROSTATIC MICRO MIRRORS TM2520 | Rev. 90-1144-9 Electrostatic driven mirrors combine the high pointing stability and the high fill factor required typically in fiber optic components. View   Download ( pdf )
OTHER MEMS (2 Documents)
Title Description Download
TUNABLE FILTER | Rev. 90-1151-11 TUNABLE FILTER | Rev. 90-1151-11
 696.38 KB
 04-07-2021
MEMS TUNABLE FILTER | Rev. 90-1151-11 Tunable Optical Filter is based on MEMS technology and is designed for ITU O, C and L band with 50 GHz or 100 GHz channel spacing. View   Download ( pdf )
FOA | REV. 90-1194-2 FOA | REV. 90-1194-2
 813.33 KB
 04-07-2021
FIBER OPTIC ACCELEROMETER (FOA) | REV. 90-1194-2 MEMS SENSOR HEAD for OEM integration. The sensing device is a micromechanical Silicon mirror (MEMS) which deflects a light beam proportional to the acceleration.   View   Download ( pdf )
MEMS VOA (2 Documents)
Title Description Download
COAXIAL mVOA | Rev. 90-1195-6 COAXIAL mVOA | Rev. 90-1195-6
 511.65 KB
 04-07-2021
MEMS mVOA - COAXIAL DESIGN | Rev. 90-1195-6 The Fiber Optic Variable Optical Attenuator is based on an electrostatic MEMS mirror. A voltage between 0-5 V on the drive pin sets the optical attenuation. When power is removed, the VOA returns into its default state. View   Download ( pdf )
BROADBAND VOA | REV. 90-1031-6 BROADBAND VOA | REV. 90-1031-6
 1.45 MB
 04-07-2021
MEMS BROADBAND VOA | REV. 90-1031-6 The plastic package is one of the smallest in the industry. It is optimized for low-cost production while maintaining high reliability comparable to a solid state device. The VOA is available in single and dual variants. View   Download ( pdf )
FOUNDRY SERVICES (2 Documents)
Title Description Download
FOUNDRY SERVICE  |  OPTICAL ALIGNMENT SUBMOUNT FOUNDRY SERVICE | OPTICAL ALIGNMENT SUBMOUNT
 948.29 KB
 04-07-2021
FOUNDRY SERVICE  |  OPTICAL ALIGNMENT SUBMOUNT Sercalo produces silicon precision micro parts based on Deep reactive ion etching. This technology achieves better precision and surface quality compared to traditional machining techniques such as milling or laser. View   Download ( pdf )
FOUNDRY SERVICE  |  SILICON WATCH COMPONENTS FOUNDRY SERVICE | SILICON WATCH COMPONENTS
 453.46 KB
 04-07-2021
FOUNDRY SERVICE  |  SILICON WATCH COMPONENTS Silicon micro mechanics offers unrivalled precision. Sercalo proposes a "foundry service" for production of single and multi-level parts in silicon. Applications are found in watchmaking, precision springs and ultra flat mechanical parts. View   Download ( pdf )