This present invention generally pertains to modular electrical connector systems that comprise a receptacle connector assembly and a plug connector assembly for connecting AC and DC power and electrical signals by overall arrangements that include wire-to-board, board-to-board, coplanar and right angle connections. The modular connectors, advantageously exhibiting minimum height and width dimensions, can transmit multiple power supplies, while having the capability to easily connect and disconnect the connector assembly from the power input module.
Modular connectors have desired features such as flexibility that allow easy assembly of connector systems with many configurations at low manufacturing costs. While modular systems are attractive there are many aspects in which improvement is sought. For example, there is a desire to plug and unplug the power source without unplugging the entire connector, to employ the same connector for both board-to-board and wire-to-board contacts, to have secure connections that avoid a separate panel mount, to provide interlocking features that ensure proper alignment with increased interlock strength and to conserve space on the bases that the modular system connects. There is also a desire to provide modular connector assemblies that can transmit multiple AC and DC power supplies. There is an overall need to improve modular connectors and overcome the deficiencies of the prior art.
Prior art approaches include U.S. Pat. No. 4,790,763. This patent pertains to a modular connector assembly that includes distributing different levels of power between printed circuit boards (PCBs) such as mother and daughter PCBs. The modules are of a mixed type with a variety of power carrying contacts, polarizing modules and signal modules. The modules disclosed are interlinked with specific module side structures that require a rotary action of two side-by-side modules for the modules to engage and interlink. A polarizing key lock feature is provided by a snap ring including a slot to permit engagement and disengagement by a tool such as a screwdriver. U.S. Pat. No. 5,575,690 describes a rigid hybrid electrical connector for printed circuit boards that can be assembled from a number of interlocking power connector modules, signal connector modules, spacer modules and mounting flange modules. While only female type modules are produced the female modules can be converted to a male module with an adapter. The patent includes a modular connector system that has either a female to male adapter in a socket or a spacer.
U.S. Pat. No. 5,584,728 relates to an elongated modular connector comprising a plurality of connector modules each having an insulative housing and a plurality of contacts therein. Each module is a card edge connector. Every two adjacent connector modules are connected to each other in an end-to-end relationship. An external fastening means latchably aligns two adjacent modules together so the connector can lengthwise extend itself by adding modules to increase signal and power transmission. The patent describes a central slot extending through the whole housing in the lengthwise direction for reception of a board edge device or a board.
Other prior art includes the following. U.S. Pat. No. 6,024,607 relates to a female combination connector for connecting a computer storage drive to a printed circuit board. It includes a plurality of female connector elements affixed to a base. The plurality of female connectors correspond to a plurality of male connectors on a computer storage drive. The female combination connector also comprises a printed circuit board connector. The printed circuit board connectors includes a plurality of conductors, each of which is supported by the base, and each of which is electrically coupled to one of the plurality of female connector elements. The connector elements may be affixed to the base in a number of ways. The connector elements and the base may be integrally molded as one unit or may be individually manufactured and then bonded together. U.S. Pat. No. 7,137,848 pertains to a connector family that comprises a central housing having a connector mating face and a board-mounting interface. An outer shell is shaped to fit over the central housing. The outer shell partially encloses the board mounting interface and exposes the connector mating interface of the central housing. The outer shell has a mating interface that is configured to be joined by a cable. Contacts are held in the central housing. The contacts, central housing and outer shell are used in different configurations depending on the application.
With the present approach, it has been determined that various characteristics of prior art such as these patents may have shortcomings such as these and undesirable attributes, results or effects. The present approach recognizes and addresses matters such as these to provide enhancements not heretofore available. Overall, the present approach more fully meets the need to plug and unplug the power source without unplugging the entire connector, to have the same connector for both board-to-board and wire-to-board contacts, to have secure connection that avoids a separate panel mount, to provide interlocking features that ensure proper alignment with increased interlock strength, to conserve space on the base to which the modular system connects and to have a one unit modular connector system with either a coplanar or a right angle design. Furthermore, the present invention provides modular connector systems that transmit several AC and/or DC power supplies.
An aspect or embodiment of the invention pertains to an improved modular connector system that comprises a receptacle connector assembly and a plug connector assembly having board-to-board connection of power and electrical signal modules. The invention includes a wire-to-board option with “pass-through” feature in order to easily connect and disconnect only the power supply in order to facilitate carrying out of needed actions. For example, the system can be serviced without disconnecting the entire system. The wire connector may load to a main housing thus obviating the need for a panel mount.
In accordance with another aspect or embodiment, multiple receptacle contacts, five for example, mating with plug contacts transmit AC or DC power supplies. The AC voltages can be between about 90 and about 600 volts and typically between about 100 and about 250 volts. Each AC power supply can have a current of between about 10 and about 50 amps and typically between about 20 and about 40 amps. Each DC power supply can be between about 1 and about 70 volts and typically about between about 5 and about 18 volts. In this embodiment, power wires connect with receptacle contacts in a power supply module. One wire is a ground wire and the others wires are hot and neutral wires. The hot wires and the neutral wires are between about 8 and about 14 AWG wire and typically between about 10 and about 12 AWG wire. The ground wire is between about 8 and about 14 AWG wire and typically between about 10 and about 12 AWG wire. Power receptacle contacts suitably have about a 7.5 mm pitch. In an embodiment, the mating portion of the ground plug contact is longer than the mating portion of the hot and neutral plug contacts. The longer ground plug contact, which can be as long as about twice as long for example, provides two levels of mating for input power.
In still another aspect or embodiment, a modular connector system comprised of the above described power supply and ground return, has an electrical signal connector with between about 6 and about 40 mated signal contacts and typically between about 18 and about 32 mated signal contacts. Said modular connector system has a height between about 12 and about 25 mm off the board and typically between about 18 and about 22 mm off the board.
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriate manner.
The presently illustrated modular connector system 10 comprises a modular plug assembly having multiple plug connector modules and a modular receptacle assembly having multiple receptacle connector modules. Same is illustrated herein by a modular receptacle connector assembly, generally designated as 11, and a modular plug connector assembly, generally designated as 12. Modular plug assembly 12 is shown connecting PCB or mother board 15, considered horizontal as shown, to PCB or daughter board 17, considered to be vertical as shown. Modular connector system 10 is thus shown as one modular piece that connects two PCBs at a right angle. The system can be in a mid-plane or back-plane arrangement.
In an embodiment,
Insertable power supply module 24 (
In this illustrated embodiment, a ramp protrusion 82 positioned at the tip of locking cantilevered beam 66 snaps into an indentation 84 on surface 76 that locks power supply module 24 into power receptacle module 13. This results in an easy-connect function having additional security and can beneficially provide a signal to the user that the connection has been successfully completed. Imparting digital pressure onto a surface 86 of releasing cantilevered beam 68 unlocks release latch 60 and allows power supply 24 to be removed from power receptacle module 13 for an easy-disconnect function.
In the above embodiment the power source may be plugged and unplugged from modular connector system 10 without unplugging the entire connector system. Furthermore, power supply module 24 connects directly to modular connector system 10 without the need for a separate power mount. It will be appreciated that this function can be accomplished with modifications to the illustrated embodiment. For example, the locking cantilevered beam 66 could have multiple protrusions and/or one or more indentations, with the surface 76 having one or more indentations and/or protrusions, respectively, that mate with and correspond to protrusions and/or indentations of the beam 66.
Power wires 88 as shown in
In the depicted arrangement, power supply module 24 can be AC and power input portion 26 of power receptacle module 13, which can be DC, illustrates that modular connector system 10 can connect in both a board-to-board set-up and wire-to-board set-up. Receptacle contacts 46, power input receptacle contacts 30, and ground return receptacle contacts 98 align substantially in a row as shown in
Plug connector assembly 12 that is shown has four interconnected plug modules.
The illustrated embodiment of
In another aspect or embodiment, the modular connector system 10 can provide the insertable connector module in the form of a plug connector, with the transfer module being a receptacle connector rather than a plug connector as it is shown in
In another embodiment,
A release latch, generally designated as 260, is provided on the top surface (as illustrated) of the power module 224. The release latch 260 releasably engages the collar-shaped portion 220 by a snap-in and snap-out arrangement such that the insertable power module can be engaged and disengaged from the collar-shaped portion 220. When engaged, the insertable power module 224, whether receptacle or plug, is in position for connection to a complementary connector module, whether plug or receptacle. When disengaged, the incoming power module is easily detached from the rest of the modules and assembly without requiring other disassembly of the modules that are assembled together.
Plug connector assembly 212 that is shown in this embodiment has three interconnected plug modules.
It will be understood that there are numerous modifications of the illustrated embodiments described above which will be readily apparent to one skilled in the art, such as many variations and modifications of the power connector and/or its components including combinations of features disclosed herein that are individually disclosed or claimed herein, explicitly including additional combinations of such features, or alternatively other types of power connectors. Also, there are many possible variations in the materials and configurations. These modifications and/or combinations fall within the art to which this invention relates and are intended to be within the scope of the claims, which follow.