ooma TELOMD15 DECT MODULE (OOMA TELO) User Manual

ooma, Inc. DECT MODULE (OOMA TELO)

Users Manual

User manual of MD-1562 Digital Cordless Module For ooma Inc. (FCC ID: XFT-TELOMD15) Version 1.0.1 Issue date: 2009/07/14
Page:2 of 19 Contents 1. Introduction........................................................................................................................................... 3 1.1 Product overview _ Features summary....................................................................................... 3 2. Digital Cordless Module (MD-1562) description................................................................................. 4 2.1 Chipset platform.......................................................................................................................... 4 2.2 Numbering system ...................................................................................................................... 4 2.3 Typical application...................................................................................................................... 5 3. Functionality ......................................................................................................................................... 7 4. Technical specifications........................................................................................................................ 8 4.1 Absolute operation ratings .......................................................................................................... 8 4.2 Baseband specification................................................................................................................ 9 4.3 Radio part (RF) specification.................................................................................................... 10 5. Connection diagram .............................................................................................................................11 6. Software implementation .................................................................................................................... 13 6.1 Examples flow for implementation of API for initial start ....................................................... 13 6.2 Application note (UART for Command signalling) ................................................................. 15 7. Safety information............................................................................................................................... 17
Page: 3 of 19 1. Introduction This document provides an overview of the functionalities supported by the Digital Cordless Module (MD-1562) with Vega-1 based DECT processor. 1.1 Product overview _ Features summary The table below provided a brief summary of the key features supported by the MD-1562_CLxx series. Platform Features MD-1562 Remark Application (DECT/DECT 6.0) Base Physical dimension (mm) 5*33*50 Pin count 32 pins Wideband audio codec G.722 Audio channel (for Base) 4 Key features supported: - GAP Compliant - Audio streaming - Remote access for Interactive data application - API command set supported for GUI control - Remote software upgradeable Yes
Page: 4 of 19 2. Digital Cordless Module (MD-1562) description 2.1 Chipset platform The MD-1562 DECT module is based on a highly integrated chipset for DECT and DECT VoIP application. 2.2 Numbering system The customer model number system below provides basic information of model number assignment for customer to place the order; a label shows the model number would be labeled on each module delivered! Code 5: “1” is reserved for Baycom’s standard platform Example: MD-1562 Customer code ((((5)))) Serial No. ((((6)))) Reserved Platform ((((3~4)))) Product Cat. ((((1~2))))
Page: 5 of 19 2.3 Typical application 2.3.1 For base: The cordless base using the MD-1562 contains a base band section & a RF section. The antenna(s) will be located outside the module PCB area. To compose a base, the module will need the additionally hardware interface to support line interface、power supply、handset charger interface...
Page: 6 of 19 2.3.2 For data application: The MD-1562 for data application can be executed as a MD-1562 base, combined with one co-processor, which then by the control of the module able to send data back and forth using the up to 32 Kbits/s air interface. It is possible to establish a data link from up to five handsets to one base and routing the data via the UART interface. However, the UART interface has a limited transmission speed up to 115.2Kb/s baud rate. If more data connections are active at the same time and exceeding the capacity of the serial bus, the bandwidth of the bus is shared equally between the data connections. For the base with MD-1562, it is possible to send data from one handset to another. It is possible to send Low Speed (6.4Kbits/s) data between two handsets in an intercom through the base unit.
Page: 7 of 19 3. Functionality The following tables list all the functionalities which the MD-1562 can support: Functionality Support Remark Standard Base audio control feature:Call handling Incoming/outgoing call Yes Both DTMF and Pulse dial Intercom Yes Between handsets via the base Conference call Yes Between 2 handsets and external line Call forwarding Yes Transfer call between handsets Call back Yes If no reply on call forward Page call Yes Base to pages all handsets (Handset locator) Caller ID Call waiting at external line during intercom Yes Indication of incoming call during conversation. Call waiting at external line during another external call. Yes Indication of incoming call during conversation. Requires the support from operator and the base application. Caller ID reception Yes Supports ETSI (FSK & DTMF) CLIP Message waiting reception/Voice mail Yes Protocol Registration Yes Auto registration in Base Handsets per base station Yes 5~9 handsets subject to the selection of the platform Data call Yes 32 Kbits/s on the air-interface (one slot) Dual slot diversity Yes 32 Kbits/s voice Broadcast from base to handset Yes
Page: 8 of 19 4. Technical specifications 4.1 Absolute operation ratings Description Conditions Min Max Units Supply Voltage for Baseband Vsup1 FP mode 3.0 3.6 V Supply Voltage for RF Vsup2 FP mode 2.7 3.6 V Supply Voltage for RF VPA FP mode 1.8 3.8 V Max total current into VDDIOs 90 mA Max current into I/O pins 4 mA Max voltage on digital input pins GND-0.3 VDDIO+0.3 V Storage temperature -30 +80 °C ESD voltage according to human body model 4K V
Page: 9 of 19 4.2 Baseband specification No Item Baseband Specification Comment 1 X’tal Oscillator 13.824 MHz +/- 20ppm 2 Serial Interface UART Compatible with 16450/16550 standard (1,200〜921,600 Kbits/s) Recommended 3 SPI Interface SPI Interface for external processor or PC Optional 4 EEPROM Module From 8Kbit to 64 Kbit external EEPROM TBC 5 Analog front end/Audio BS_Application Interface for line I/F,CLIP, Ring detection Optional with platform selection 6 Analog front end/Audio HS_Application Interface for Microphone, Earpiece, Headset 7 PCM Interface GPIO 6/7/8/9 8a Power Consumption (stand by mode) BS_Application DECT Tyep: 55 mA Max: 60 mA Average 8b Power Consumption (talk mode) BS_Application DECT Type: 75 mA Max: 100 mA Average
Page: 10 of 19 4.3 Radio part (RF) specification No Item Radio Part Specification Comment 1 Receive Sensitivity DECT Minimum: -89dBm Typically: -91dBm Maximum: -93dBm @ BER = 0.001 2 Receive IIP DECT -21dBm to -19dBm 3 Transmit Power (NTP) DECT Minimum: 20dBm Typically: 23dBm Maximum: 25.5dBm Approx. 200mW 4 TDMA(time division multiple access) DECT 12 time slot pr. carrier 5 Signaling Bit-rate DECT 1,152 Kbits/sec 6 Modulation DECT GFSK Bandwidth 20dB < 1,728MHz 7 Antenna Diversity supported DECT Control signals are available from the module Antenna switch has to be added externally
Page: 11 of 19 5. Connection diagram 5.1 Dimension
Page: 12 of 19 5.2 Pin assignment
Page: 13 of 19 6. Application 6.1 Examples for implementation with hardware peripheral on mother board For module application with SPI: a. “S_SPI_IN” is “DI_SPI”, to be connected to the “SPI Data Out” on Host uP b. “S_SPI_OUT” is “DO_SPI”, to be connected to the “SPI Data In” on Host uP c. Opposed pin out connection for Transmit vs. Receive is required
Page: 14 of 19 6.2 Examples flow for implementation of API for initial start Host uP DCM: Resent cycle time of Cmd22/23 is 4 seconds. Cmd 22: 1016xxxx… Event 23: 20170400xxxxxx Cmd 23: 101700 (Query PC’ time) Figure 2 _ Example for implementation of API for initialization Event 22: 20160100
Page: 15 of 19 6.3 Example for software implementation Response Cmd Cmd25 Error Event 17: 021101xx Refused Event 20: 02140400.…09 Error Event 20: 021403xx.… Missed Event 20: 02140400….08 Finished Event 20: 02140200.…07 Off-Hook for out going call Cmd 15: 010f0bchange 1205 (P2P) Response Event Event 26: 021b0313.… On Hook Cmd 19: 011302…. Response Event Event 26: 021b010f Ringing Event 17: 02110400….04 Response Cmd Cmd 25: 0119051100.…04 Inprogress Event 17: 02110400.…05 Response Cmd Cmd 25: 0119051100.…05 Resent until receive Response Cmd25, or Timeout (3 times) Resent until receive Response Cmd25, …. Call ID Figure 3 Example for Implementation of API _ P2P Out going call
Page: 16 of 19 6.4 Application note (UART for Command signaling)  Block Function The enhanced serial (UART) interface is basically compatible with the industry-standard 16450/16550 UARTs. The following features are supported:  Even, odd, fixed ‘1’, fixed ‘0’ or no parity generation and detection  One or two stop bit generation  Character size 5/6/7 or 8 bits  Programmable standard baud rates, e.g. 4.8, 9.6, 19.2, 38.4, 57.6 and 115.2, 230.4, 460.8 and 921.6 kbps (for the highest baud rate restrictions on system clock settings apply)  Automatic line error checking: stop bit failure (framing), RX overrun, parity error, break  Received characters will be stored together with detected line errors in RX FIFO  Transmit interrupt generated when TX FIFO (i.e. TX hold register) empty  Receive interrupt generated on one of the following events  Receive line status (framing error, RX overrun, parity error)  Receive data available (receive hold register full or pre-programmed level in RX FIFO reached) Noted: The default of UART functions are defined below: - No parity generation and detection - One stop bit generation - 8 bit characters size - Baud rates: 115,200 bps
Page: 17 of 19 7. Safety information The equipment has been tested and found to comply with the limits for a Class B Digital Device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generate, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction, may cause harmful interference to radio communication. However, there is no grantee that interference will not occur in a particular installation. If this equipment dose causes harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: -- Reorient or relocate the receiving antenna. -- Increase the separation between the equipment and receiver. -- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. -- Consult the dealer or an experienced radio/TV technician for help. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. To comply with the FCC RF exposure compliance requirements, this device and its antenna must not be co-located or operating to conjunction with any other antenna or transmitter.
Page: 18 of 19 To OEM installer: 1. FCC ID label on the final system must be labeled with "Contains FCC ID: XFT-TELOMD15" or "Contains transmitter module FCC ID: XFT-TELOMD15 ". 2. In the user manual, final system integrator must be ensured that there is no instruction provided in the user manual to install or remove the transmitter module. 3. Transmitter module must be installed and used in strict accordance with the manufacturer is instructions as described in the user documentation that comes with the product. This device complies with the following radio frequency and safety standards. The user manual of the final host system must contain the following statements: USA-Federal Communication Commission (FCC) This equipment has been tested and found to comply with the limits for a Class B Digital Device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction, may cause harmful interference to radio communication. However, there is no grantee that interference will not occur in a particular installation. If this equipment dose cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: -- Reorient or relocate the receiving antenna. -- Increase the separation between the equipment and receiver. -- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. -- Consult the dealer or an experienced radio/TV technician for help.
Page: 19 of 19 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. To comply with the FCC RF exposure compliance requirements, this device and its antenna must not be co-located or operating to conjunction with any other antenna or transmitter.

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