1、 Copyright 2008 by THE SOCIETY OF MOTION PICTURE AND TELEVISION ENGINEERS 3 Barker Avenue, White Plains, NY 10601 (914) 761-1100 Approved November 25, 2008 The attached document is a Registered Disclosure Document prepared by the proponent identified below. It has been examined by the appropriate SM
2、PTE Technology Committee and is believed to contain adequate information to satisfy the objectives defined in the Scope, and to be technically consistent. This document is NOT a Standard, Recommended Practice or Engineering Guideline, and does NOT imply a finding or representation of the Society. Er
3、rors in this document should be reported to the proponent identified below, with a copy to engsmpte.org. All other inquiries in respect of this document, including inquiries as to intellectual property requirements that may be attached to use of the disclosed technology, should be addressed to the p
4、roponent identified below. Proponent contact information: Mitsuaki Kihara TAJIMI ELECTRONICS CO., LTD. 2-29-1, Ebisu-Minami, Shibuya-Ward Tokyo, Japan E-mail: kiharatajimi.co.jp Page 1 of 14 pages RDD 16-2008for Television Broadcast Cameras Hybrid Electrical and Fiber-Optic Ball-Lock Connector Type-
5、OPS SMPTE REGISTERED DISCLOSURE DOCUMENT RDD 16-2008 Page 2 of 14 pages Overview This Registered Disclosure Document (RDD) describes a connector intended for use connecting a broadcast camera to its camera control unit (CCU). This connector has been used in heavy-duty environments at broadcasting fa
6、cilities in Japan, other Asian countries and Central America. However, this connector has not been used in the United States of America yet. When this connector starts to be used in the United States of America in the future, the proponent will consider submitting it to SMPTE for formal standardizat
7、ion. Table of Contents Page 1 Scope 3 2 Conformance Notation 3 3 Normative References 4 4 Connector Specifications 4 4.1 Structural Requirements. 4 4.2 Contact Requirements 4 4.3 Classifications. 4 4.4 Field Serviceability 5 5 Mechanical Interface Dimensions. 5 5.1 Mating Interface Dimensions 5 5.2
8、Shell-Key 5 5.3 Insulator-Key. 5 5.4 Contact Arrangements 5 6 Performance . 5 RDD 16-2008 Page 3 of 14 pages 1 Scope This document describes a connector primarily intended for use in television broadcasting and video equipment, such as camera head to camera control-unit connections. It defines hybri
9、d connectors, which contain a combination of electrical contacts and fiber-optic contacts for single-mode fibers. This document also contains nominal dimensions, which ensure nondestructive mating of the electrical and optical interfaces, and functional operability of the electrical interface. Funct
10、ional operability of the optical interface is dependent upon fiber preparation and termination and is, therefore, not guaranteed by this document. In addition, this connector has three following characteristics in structure. a) Ball-lock mechanism: If metal residue or small particles of dust contami
11、nate the end face of the fiber, the optical power may decrease, and the risk of a communication error increase. The Ball-lock mechanism used is intended to decrease the occurrence of metal residue created by connecting or disconnecting. b) Position with Shell-key guide groove and Optical ferrule wit
12、h regard to Jack connector: The Shell-key guide groove is located on the outside of the jack connector so that if metal residue is created by the mating process, there is very low probability of it contamination the optical ferrule which is covered by Shell. (As shown in Figure 2) c) Protective mech
13、anism for waterproof with regard to Plug connector The Waterproofing plane is located inside the extremities of the outer shell, so that it is protected in the event that the connector is dropped in an unmated condition. (As shown in Figure 1) The connector described in this document is intended for
14、 use primarily with the hybrid fiber optic camera cable described in SMPTE 311M; however, this connector may be used independently to meet other requirements. 2 Conformance Notation Normative text is text that describes elements of the design that are indispensable or contains the conformance langua
15、ge keywords: “shall“, “should“, or “may“. Informative text is text that is potentially helpful to the user, but not indispensable, and can be removed, changed, or added editorially without affecting interoperability. Informative text does not contain any conformance keywords. All text in this docume
16、nt is, by default, normative, except: the Introduction, any section explicitly labeled as “Informative“ or individual paragraphs that start with “Note:” The keywords “shall“ and “shall not“ indicate requirements strictly to be followed in order to conform to the document and from which no deviation
17、is permitted. The keywords, “should“ and “should not“ indicate that, among several possibilities, one is recommended as particularly suitable, without mentioning or excluding others; or that a certain course of action is preferred but not necessarily required; or that (in the negative form) a certai
18、n possibility or course of action is deprecated but not prohibited. The keywords “may“ and “need not“ indicate courses of action permissible within the limits of the document. The keyword “reserved” indicates a provision that is not defined at this time, shall not be used, and may be defined in the
19、future. The keyword “forbidden” indicates “reserved” and in addition indicates that the provision will never be defined in the future. RDD 16-2008 Page 4 of 14 pages A conformant implementation according to this document is one that includes all mandatory provisions (“shall“) and, if implemented, al
20、l recommended provisions (“should“) as described. A conformant implementation need not implement optional provisions (“may“) and need not implement them as described. Unless otherwise specified the order of precedence of the types of normative information in this document shall be as follows. Normat
21、ive prose shall be the authoritative definition. Tables shall be next, followed by formal languages, then figures, and then any other language forms. 3 Normative Reference The following standard contains provisions which, through reference in this text, constitute provisions of this registered discl
22、osure document. At the time of publication, the edition indicated was valid. All standards are subject to revision, and parties to agreements based on this registered disclosure document are encouraged to investigate the possibility of applying the most recent edition of the standard indicated below
23、. SMPTE 311M-2003, Television Hybrid Electrical and Fiber-Optic Camera Cable 4 Connector Specifications 4.1 Structural Requirements The connector system shall consist of a plug-and-jack arrangement. It shall feature a push-pull quick connect/disconnect coupling mechanism by metal ball. Each connecto
24、r shall contain two fiber-optic contacts, with cylindrical spherical butting ferrules. The ferrules shall be ceramic and the optical alignment mechanism shall be a ceramic split sleeve contained in the contacts on the plug. Appropriate dust caps for all connector configurations shall be used as prot
25、ection against contamination during unmated situations. 4.2 Contact Requirements The connectors shall house two fiber-optic contacts, four electrical contacts. 4.3 Classifications Connectors covered by this part shall be classified as: Name: Hybrid Ball-lock connector Type-OPS (Optical Push-pull con
26、nector by Spherical metal ball) Coupling: Push pull by metal ball Configurations: o Cable plug (to mate with connector on camera) color ring: green o Cable jack (to mate with base station) color ring: black o Jack, panel mount (installed on camera) o Plug, panel mount (installed on base station) o C
27、able jack, panel mount (installed on patch panels) o Cable plug, panel mount (installed on studio wall boxes / OB vans) Note: Other styles of connector with other back-end mounting arrangements are available and are fully intermateable with the variants above. RDD 16-2008 Page 5 of 14 pages 4.4 Fiel
28、d serviceability The connectors shall be designed to permit field termination, replacement, and repair by trained personnel, using assembly instructions supplied by the connector manufacturer, and with the appropriate tooling. 5 Mechanical interface dimensions 5.1 Mating interface dimensions The mat
29、ing interface dimensions for each connector configuration (plug and jack) shall be in accordance with Figures 1 and 2 and Tables 1 and 2. All dimensions are metric. 5.2 Shell-Key The connectors shall have polarization keys in accordance with Figures 3 and 4 and Tables 3 and 4. 5.3 Insulator-Key The
30、connectors shall have an insulator key to maintain the correct performance in accordance with Figures 5 and 6 and Tables 5 and 6. 5.4 Contact arrangements The contacts shall be located in accordance with Figures 5, 6, and 7 and Tables 5, 6, and 7. 6 Performance The connectors shall meet the followin
31、g minimum requirements: Optical: Wavelength: 1250 nm 1625nm Insertion loss: 0.5 dB maximum Return loss: Better than 45 dB Electrical: Voltage: 600 V ac Current: 10 A Environmental: Temperature: 40C to +75C Humidity: 0 % to 95% RH (at +40C) Note: The degree of waterproofing is left for manufacturing
32、implementation. RDD 16-2008 Page 6 of 14 pages Figure 1 Plug mating interface RDD 16-2008 Page 7 of 14 pages Table 1 Plug mating dimensions Position Dimensions (mm) Description A1 17.0 Outer shell to reference plane A2 15.5 A3 12.8 Insulator to reference plane A4 2.0 A5 60 A6 3.0 A7 21.45 Outer shel
33、l inside diameter A8 17.33 Inner shell outside diameter A9 16.99 Waterproofing plane A10 15.02 Inner shell inside diameter A11 3.7 A12 16.43 Groove for locking the Ball A13 20.53 Holding the Ball A14 45 Two places A15 0.47 Groove for locking the Ball / Two places A16 12.5 A17 15.71 The top is used a
34、s Ground. B1 7.0 Optical to mechanical reference plane B2 (1.98) Split sleeve inside diameter B3 1.998 Diameter of optical ferrule C1 7.8 Electrical to mechanical reference plane C2 4.1 Insulator inside diameter for electrical contact C3 2.77 C4 1.87 C5 (1.4) Connection with B2 (Figure 2) electrical
35、ly C6 60 C7 3.0 C8 9.8 Insulator location RDD 16-2008 Page 8 of 14 pages Figure 2 Jack mating interface RDD 16-2008 Page 9 of 14 pages Table 2 Jack mating dimensions Position Dimensions (mm) Description A1 21.0 A2 14.5 Connection with A17 (Figure 1) electrically A3 12.8 Insulator to reference plane
36、A4 2.45 A5 2.42 A6 30 A7 17.15 A8 4.33 A9 14.95 Insulator outside diameter A10 17.43 Shell inside diameter A11 20.35 A12 21.25 Shell outside diameter A13 2.0 Ball diameter / 6 pcs A14 2.13 Ball holding space / 6 pcs B1 6.1 Optical to mechanical reference plane B2 1.998 Diameter of optical ferrule C1
37、 4.3 Electrical to mechanical reference plane C2 1.58 Electrical contact outside diameter C3 2.35 C4 3.38 Insulator outside diameter for electrical contact C5 3.1 The top of Electrical contact C6 9.9 Insulator location C7 60 RDD 16-2008 Page 10 of 14 pages Figure 3 Plug key arrangement Table 3 Plug
38、key dimensions Position Dimensions (mm) Description D1 130 Shell-Key D2 110 Shell-Key D3 2.5 Width of Shell-Key / 3 pcs D4 9.5 Height of Shell-Key / 3 pcs D5 R1.25 Shell-Key / 3 pcs D6 11.0 Depth of Shell-Key / 3 pcs RDD 16-2008 Page 11 of 14 pages Figure 4 Jack key arrangement Table 4 Jack key dime
39、nsions Position Dimensions (mm) Description D1 130 Shell-Key groove D2 110 Shell-Key groove D3 2.6 Width of Shell-Key groove / 3 pcs D4 9.3 Height of Shell-Key groove / 3 pcs D5 R1.3 Shell-Key groove / 3 pcs D6 11.5 Depth of Shell-Key groove / 3 pcs RDD 16-2008 Page 12 of 14 pages NOTE Figure viewed
40、 from front face. Figure 5 Plug contact arrangement Table 5 Plug contact dimensions Position Dimensions Description E1 2.4 Electrical contact E2 4.8 Fiber-optic contact E3 4.16 Electrical contact E4 6.5 Height of Insulator-Key groove E5 2.1 Width of Insulator-Key groove E6 0.5 Depth of Insulator-Key
41、 groove RDD 16-2008 Page 13 of 14 pages NOTE Figure viewed from front face. Figure 6 Jack contact arrangement Table 6 Jack contact dimensions Position Dimensions (mm) Description E1 2.4 Electrical contact E2 4.8 Fiber-optic contact E3 4.16 Electrical contact E4 6.5 Height of Insulator-Key E5 2.05 Wi
42、dth of Insulator-Key E6 11 Depth of Insulator-Key RDD 16-2008 Page 14 of 14 pages NOTE Figure viewed from front face. Figure 7 Pinout wiring number Table 7 Pinout wiring diagrams Contact No. Wire type (Color) Description 1 Optical fiber (Blue) From Camera to Base station 2 Optical fiber (Yellow) From Base station to Camera 3 Low voltage electrical wire (Gray) Hot 4 Low voltage electrical wire (Red) Cold 5 Auxiliary electrical wire (Black) Hot 6 Auxiliary electrical wire (White) Cold
