Not applicable.
1. Field of the Invention
This invention relates to the field of measuring end-face geometry of fiber optic connectors by means of interferometric microscopes. More specifically, the invention comprises four types of fixtures for precise positioning and measurements of multi-fiber MTP/MPO connectors and MT ferrules by the interferometric microscopes. The invention also includes a methodology of calibration of the fixtures to ensure validity and accuracy of measurements.
2. Description of the Related Art
In order for fiber optic connectors to be inspected by interferometric microscopes, a special adapter must be used for precise alignment of fiber optic connectors. By precise alignment here we mean two conditions. The connector must be in a fixed position in the vicinity of the focal plane of the lenses. The image of its end-face must be in the center of the camera sensor. Also, such adapter must ensure that the connector guide holes or guide pins are parallel to the optical axis of the microscope.
In fiber optics plugs precise nose-to-nose alignment is implemented by guide pins of one connector that fit into the guide holes of the receiving connector (see, for example U.S. Pat. No 4,973,127).
In the present invention, the precise alignment of connector in interferometric system is also implemented with the use of guide pins. One embodiment of the first fixture type and fixture types 2, 3 and 4 contain guide pins which fit into the guide holes of female fiber optic connectors. Another embodiment of the first fixture type contains guide holes in which the guide pins of male connectors are inserted.
There is a known adapter for positioning of fiber optic connectors for use together with an interferometric optical microscope, namely a holding fixture (see U.S. Pat. No 7,004,639).
An improvement of the present invention compared to the above mentioned holding fixture is that additional precision in the first fixture type is ensured by a locking mechanism.
Another improvement is that there are removable guide pins in the first fixture type, so the same universal fixture can be used for both male and female connectors. In the latter case, the removable guide pins on a bar are inserted into the guide holes in the fixture base. This is a more cost-effective solution than two different fixtures for two different connector genders.
The removable guide pins can be inserted into the fixture base from front side or from back side of the base.
Inserting guide pins from front side is convenient when there is a need to inspect the same MTP/MPO connector first as a female type (without the guide pins) and then as a male type (with the guide pins) or vice versa. In such a case, a technician responsible for measuring the ferrules will not need to dismount the whole fixture assembly and then mount another fixture assembly. One option is to insert the removable guide pins into the fixture base already mounted on the interferometer.
Another option is to insert the guide pins into a connector first. Then the connector with the inserted guide pins is locked in the fixture by the locking mechanism. The technician will be able to choose the way of insertion more convenient to them.
Advantage of the fixture with the locking mechanism is unstiffened position of the guide pins while the lock is open. When inserting a connector into the fixture, the guide pins can move without restraint. As a result, the risk of damage of both the guide holes and the guide pins is reduced in case of fixtures with fixed pins.
The length of the guide pins in the holding fixture described in U.S. Pat. No 7,004,639 is 4.5 mm±0.5 mm. The length of the guide pins in the second fixture type described in the present invention is 1.8-3.5 mm. The smaller length of the guide pins is an improvement of the present invention because they cause less damage to connector guide holes that have some deviation from being parallel. In the same time, the required level of measurement accuracy is preserved.
It is proven by a series of measurements that with the length of the guide pins 1.8-3.5 mm the surface angle measurements accuracy is within the required limits of ±0.015 degrees.
The smaller length of guide pins simplifies fixture production. It is easier to keep the necessary tolerance of center-to-center spacing between the pins in case of shorter pins.
The third and the fourth fixture types represented in the present invention have single guide pin instead of a pair of the guide pins. Single guide pin in the fixture is a novelty. It is an improvement because there is no need to keep a precise center-to-center spacing as in case of the double pins.
Both guide holes in ferrules and guide pins in fixtures are not strictly parallel. There is some deviation within tolerance. Inserting the guide pins into the guide holes can cause mutual tension and deformation. Single pin eliminates such negative effect of parallelism deviation. In addition, with the single-pin fixture only one guide hole at a time undergoes physical impact and is susceptible to deformation.
In U.S. Pat. No 7,004,639 the invention of the fixture is accompanied with a method of calculation of fixture calibration factor. As described in the above mentioned Patent, it is calculated from two measurements of a connector in the first and second orientations.
For calibration of the fixtures type 1, 2 and 3 the present invention uses special reference ferrules with pre-calibrated guide pins. The calibration procedure of the fixture types 1, 2 and 3 consists of one measurement for only one position of the reference ferrule. The calibration procedure does not require rotation of the reference ferrule and second measurement for its second position. This is an improvement of the present invention.
The fixture type 4 with one pin and two windows on both sides of the pin requires no calibration because it can measure an MT ferrule from two opposite views. This is an improvement of the present invention.
The present invention consists of four types of fixtures that are used for measuring multi-fiber MTP/MPO connectors and MT ferrules. The fixtures are intended for use with interferometric microscopes. The fixtures are mounted on the interferometric microscope. Connector or ferrule is inserted into the fixture for the purpose of interferometry scanning.
The fixture of the first type is equipped with a locking mechanism and hereafter referred to as fixture type 1. This fixture has two embodiments. In one embodiment, the fixture contains two guide holes. This embodiment of the fixture type 1 is hereafter referred to as fixture type 1a. In another embodiment, there are two guide pins inserted into the guide holes. This embodiment of the type 1 is hereafter referred to as fixture type 1b. The guide pins can be inserted from the back side or from the front side of the fixture base.
In the first embodiment type 1a, MTP/MPO male connectors are precisely aligned relative to the optical axis of the interferometric microscope. The guide pins of the connectors fit into the guide holes of the fixture which are parallel to the optical axis of the interferometric microscope. The locking mechanism enables precise connector alignment by means of simultaneous locking of two pins of the connector inserted into the guide holes of the fixture.
In the second embodiment type 1b, the fixture type 1a is accompanied with two pins on a bar inserted into the guide holes of the fixture base from back side or front side of the fixture. The guide can have length from 1.8-3.5 mm.
The fixing of the guide pins is not strictly rigid. This enables unstiffened position of the pins in the inserted female connector or ferrule. The guide pins are locked by the locking mechanism after they have been inserted into the connector or ferrule. The locking mechanism of the fixture enables precise alignment of the female connector or ferrule by means of simultaneous locking of two pins of the fixture inserted into the connector or ferrule.
The fixture type 1 is used for measuring multi-fiber connectors of MTP/MPO types and MT ferrules. Precise alignment of connectors and ferrules is ensured by the locking mechanism and pins.
The fixture of the second type has one window in the base and two guide pins located near opposite sides of the window. It is hereafter referred to as fixture type 2.
The fixture type 2 is used for measuring multi-fiber MTP/MPO female connectors and MT ferrules. Precise alignment of connectors and ferrules in the interferometric system is ensured by the guide pins of the fixture. The guide pins are fixed in the base and can have length from 1.8-3.5 mm.
The fixture of the third type has one window and one guide pin in the base located near one window side. It is hereafter referred to as fixture type 3.
The fixture type 3 is used for measuring multi-fiber MTP/MPO female connectors and MT ferrules. Precise alignment of connectors and ferrules is ensured by the guide pin of the fixture. The guide pin is fixed in the base and can have length from 3-6 mm.
The fixture of the fourth type has one guide pin in the center of the base and two windows on both sides of the pin. This fixture is hereafter referred to as fixture type 4. The guide pin of the fixture is fixed in the base and can have length from 3-6 mm.
The fixture type 4 is used for measuring multi-fiber MT ferrules. Precise alignment of the MT ferrule is ensured by the guide pin of the fixture. The guide pin of the fixture is fixed in the base.
To ensure high precision alignment of the pins in the fixtures type 1, 2 and 3 relative to the optical axis of the interferometric microscope, the fixtures are calibrated using a reference ferrule.
Verification and calibration of the fixture type 3 is done by means of a reference ferrule with one pre-calibrated guide hole. The pin of the fixture is inserted into the pre-calibrated guide hole of the ferrule. Angle values are measured. Then calibration factors of the fixture are calculated.
Verification and calibration of the fixture types 1 or 2 is done by means of a reference ferrule with two pre-calibrated guide holes. Two pins of the fixture type 1 or 2 are inserted into the two pre-calibrated guide holes of the ferrule. Angle values are measured. Then calibration factors of the fixture type 1 or 2 are calculated.
The fixture type 4 requires no calibration because it can measure the same MT ferrule from two opposite views.
The presented fixture types 1, 2, 3 and 4 will now be described in detail with reference to the drawings.
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The fixture 36 is mounted on the interferometric microscope 30 and a reference ferrule 38 is inserted into the fixture as shown on
Measurement of angle values is performed. Resulting calibration factors of the fixture type 3 are calculated as an absolute difference between the measured angles and reference offset angles of the pre-calibrated ferrule guide hole.
The fixture type 1 or 2 is mounted on the interferometric microscope 30 and a reference ferrule is inserted into the fixture as shown on
The method of calibration consists of one measurement step. Angle offset values along axis X and Y are measured. Resulting offset angles of the fixture type 1 or 2 are calculated as an absolute difference between the measured values and reference offset angles of the reference ferrule with two pre-calibrated guide holes. The offset angles of the fixture constitute fixture calibration factors.