/* * EVB_Le71HR8921G_rev_E_2M048.h -- * * This header file exports the Profile data types * * Project Info -- * File: C:\Zarlink\Profile_Wizard_P2.0.0\EVB_Le71HR8921G_rev_E_2M048.vpw * Type: VE890 Configuration for 100V Buck-Boost Power Supply, Lite Narrowband FXS Coefficients, and 2.048MHz PCLK * Date: Monday, July 12, 2010 21:00:15 * Device: VE890 Le89316 * * This file was generated with Profile Wizard Version: P2.0.0 * * Project Comments -- * -------------------------------------------- * Profile Wizard Coefficient Release 2.7 Notes: * -------------------------------------------- * Replaced FXS AC Profiles for GR57, China, Finland, and Japan. * * -------------------------------------------- * Profile Wizard Coefficient Release 2.6 Notes: * -------------------------------------------- * I. General: * 1. This release adds support for Mexico, Turkey, Thailand, Malaysia, Indonesia, and Ecuador, bringing * the total number of supported countries to 44. They are: * Argentina (AR), Austria (AT), Australia (AU), Belgium (BE), Bulgaria (BG), Brazil (BR), Canada (CA), Switzerland (CH), * Chile (CL), China (CN), Czech Republic (CZ), Germany (DE), Denmark (DK), Ecuador (EC), Spain (ES), Finland (FI), * France (FR), UK (GB), Greece (GR), Hong Kong SAR China (HK), Hungary (HU), Indonesia (ID), Ireland (IE), Israel (IL), * India (IN), Iceland (IS), Italy (IT), Japan (JP), S. Korea (KR), Mexico (MX), Malaysia (MY), Netherlands (NL), * Norway (NO), New Zealand (NZ), Poland (PL), Portugal (PT), Russian Federation (RU), Sweden (SE), Singapore (SG), * Thailand (TH), Turkey (TK), Taiwan (TW), USA (US), and South Africa (ZA). * 2. This release also corrects some Caller ID implementations and signal levels that were incorrect in release 2.3. * 3. The coefficients in this and all releases are provided for use only with the Zarlink VoicePath API. Please refer to the terms * and conditions for licensing the software regarding terms and conditions of usage. * 4. This release is for the VE8911 chipset and includes coefficients required for the FXS and FXO operation supported by the chipset. * * II. Device Profile: * 1. The default settings for the Device Profile are: * PCLK = 8192 kHz * PCM Transmit Edge = Positive * Transmit Time Slot = 0 * Receive Time Slot = 0 * Interrupt Mode = Open Drain * Switcher = Buck-Boost * Driver Tick Rate = 5 ms * Maximum Events / Tick = 2 * 2. The settings may be changed by the user as necessary. Please refer to the VE890 and API documentation for information about * the supported settings. * * II. AC Profiles: * 1. FXS Coefficients assume -6dBr RX (Output from chipset) and 0dB TX relative gain levels. * 2. FXO Coefficients 0dB RX (Output from chipset) and -6dB TX (which means +6dB gain) relative gain levels. * 3. Supported countries not individually listed should use the default 600R coefficients, such as AC_FXS_RF50_600R_DEF and * AC_FXO_LC_600R_DEF. * 4. AC FXS Coefficients assume the use of two 25 ohm series resistors or PTCs. * 5. This release includes Normal (or narrowband) coefficients for the FXS port. Wideband coefficients are available upon request. * 6. AC FXO Coefficients assume the use of the LC Filter on VE890 DAA Circuit consisting of CIMM and LIMM as shown * in the datasheet. * 7. AC FXO Coefficients include the coefficient sets for the VE890 echo free adaptive balance. * * III. DC Profile: * 1. The DC_FXS_DEF Profile is the default used for all countries. Additional profiles may be created by the user if necessary. * * IV. Ring Profiles: * 1. RING_25HZ_DEF is the default ringing profile and should be used for all countries which do not have a listed ringing profile. The default * ringing profile is set for a sine wave ringing with an amplitude of 50 Vrms and a frequency of 25 Hz. * 2. All ringing profiles on the list have a 50 Vrms ringing level. * 3. DC biasing is 0 for all the sample ringing profiles. * * V. Tone Profiles: * 1. These profiles are available only in the full version of the API. * 2. The shown levels assume a 6dB attenuation in the chipset before being outputed to line. * 3. Call progress tone levels may be arbitrary as they are not always specified in national standards, or the standards may not be available to Zarlink. * 4. ITU-T Recommendation E.180 (03/1998) revised on 02/2003 and ETSI TR 101 041-2 V.1.1.1 (05/1997) were used if national standards were not * available. * 5. Recommended ETSI ES 201 970 call progress tones are provided for reference. * 6. Modulated tones f1 x f2 are approximated as the sum of f1 + (f1+f2)/2 + (f1-f2)/2. * 7. The data in these profiles may be changed by the user as necessary. * 8. T_CAS_DEF is not a country-specific tone and is used by several national Caller ID profiles. * * V. Cadence Profiles: * 1. These profiles are available only in the full version of the API. * 2. ITU-T Recommendation E.180 (03/1998) revised on 02/2003 and ETSI TR 101 041-2 V.1.1.1 (05/1997) were used if national standards were not * available. * 3. Recommended ETSI ES 201 970 call progress cadences are provided for reference. * 4. Some countries support multiple call progress tone cadences. The ones used are believed to be representative and most common. The user may * wish to edit some of the cadence definitions or add additional cadences. * 5. Ringing signal cadences include the alerting signal(s) and necessary delays for Type 1 Caller ID, if it is supported below in the Caller ID Profiles. * * VI. Caller ID Profiles: * 1. These profiles are available only in the full version of the API. * 2. The option to calculate the checksum in the API is selected for all countries except Japan, which requires that the CRC checksum be calculated by * host application. * * VII. FXO/Dialing Profiles: * 1. 44 country-specific profiles are provided. They take into account such variations in national standards as pulse dialing, DTMF dialing, and line * event detection parameters. * 2. They may be edited as necessary to meet regulatory requirements. * 3. ETSI 203 021 defaults are also provided for reference. * * ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- */ #ifndef EVB_LE71HR8921G_REV_E_2M048_H #define EVB_LE71HR8921G_REV_E_2M048_H #ifdef VP_API_TYPES_H #include "vp_api_types.h" #else typedef unsigned char VpProfileDataType; #endif /************** Device_Parameters **************/ extern const VpProfileDataType DEV_PROFILE_Buck_Boost[];/* Device Configuration Data */ /************** AC_Coefficients **************/ extern const VpProfileDataType AC_FXS_RF50_600R_DEF[];/* AC FXS RF50 600R Normal Coefficients (Default) */ extern const VpProfileDataType AC_FXS_RF50_ETSI[]; /* AC FXS RF50 ETSI ES201 970 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_GR57[]; /* AC FXS RF50 Telcordia GR-57 900R+2.16uF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_AT[]; /* AC FXS RF50 Austria 220R+820R//115nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_AU[]; /* AC FXS RF50 Australia 220R+820R//120nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_BE[]; /* AC FXS RF50 Belgium 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_BG[]; /* AC FXS RF50 Bulgaria 220R+820R//115nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_CH[]; /* AC FXS RF50 Switzerland 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_CN[]; /* AC FXS RF50 China 200R+680R//100nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_DE[]; /* AC FXS RF50 Germany 220R+820R//115nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_DK[]; /* AC FXS RF50 Denmark 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_ES[]; /* AC FXS RF50 Spain 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_FI[]; /* AC FXS RF50 Finland 270R+910R//120nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_FR[]; /* AC FXS RF50 France 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_GB[]; /* AC FXS RF50 UK 370R+620R//310nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_HU[]; /* AC FXS RF50 Hungary 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_IE[]; /* AC FXS RF50 Ireland 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_IT[]; /* AC FXS RF50 Italy 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_JP[]; /* AC FXS RF50 Japan 600R+1uF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_NL[]; /* AC FXS RF50 Netherlands 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_NO[]; /* AC FXS RF50 Norway 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_NZ[]; /* AC FXS RF50 New Zealand 370R+620R//310nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_PT[]; /* AC FXS RF50 Portugal 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_SE[]; /* AC FXS RF50 Sweden 270R+750R//150nF Normal Coefficients */ extern const VpProfileDataType AC_FXS_RF50_ZA[]; /* AC FXS RF50 South Africa 220R+820R//115nF Normal Coefficients */ extern const VpProfileDataType AC_FXO_LC_600R_DEF[]; /* AC FXO LC Filter 600R Normal ABF Coefficients (Default) */ extern const VpProfileDataType AC_FXO_LC_ETSI[]; /* AC FXO LC Filter ETSI ES203 021 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_TBR21_CR[]; /* AC FXO LC Filter TBR21 with Current Limit 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_GR57[]; /* AC FXO LC Filter Telcordia GR-57 600R Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_AT[]; /* AC FXO LC Filter Austria 220R+820R//115nF Normal Coefficients */ extern const VpProfileDataType AC_FXO_LC_AU[]; /* AC FXO LC Filter Australia 220R+820R//120nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_BE[]; /* AC FXO LC Filter Belgium 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_BG[]; /* AC FXO LC Filter Bulgaria 220R+820R//115nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_CH[]; /* AC FXO LC Filter Switzerland 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_CN[]; /* AC FXO LC Filter China 200R+680R//100nF Coefficients (Voice Applications) */ extern const VpProfileDataType AC_FXO_LC_CN2[]; /* AC FXO LC Filter China 600R Normal ABF Coefficients (Modem Applications) */ extern const VpProfileDataType AC_FXO_LC_DE[]; /* AC FXO LC Filter Germany 220R+820R//115nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_DK[]; /* AC FXO LC Filter Denmark 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_ES[]; /* AC FXO LC Filter Spain 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_FI[]; /* AC FXO LC Filter Finland 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_FR[]; /* AC FXO LC Filter France 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_GB[]; /* AC FXO LC Filter UK 370R+620R//310nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_HK[]; /* AC FXO LC Filter Hong Kong SAR 600R ABF Coefficients - 4 KHz Return Loss */ extern const VpProfileDataType AC_FXO_LC_HU[]; /* AC FXO LC Filter Hungary 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_IE[]; /* AC FXO LC Filter Ireland 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_IT[]; /* AC FXO LC Filter Italy 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_JP[]; /* AC FXO LC Filter Japan 600R Lowest ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_MY[]; /* AC FXO LC Filter Malaysia 600R Low ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_NL[]; /* AC FXO LC Filter Netherlands 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_NO[]; /* AC FXO LC Filter Norway 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_NZ[]; /* AC FXO LC Filter New Zealand 370R+620R//310nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_PT[]; /* AC FXO LC Filter Portugal 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_SE[]; /* AC FXO LC Filter Sweden 270R+750R//150nF Normal ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_TW[]; /* AC FXO LC Filter Taiwan 600R Low ABF Coefficients */ extern const VpProfileDataType AC_FXO_LC_ZA[]; /* AC FXO LC Filter South Africa 220R+820R//115nF Normal ABF Coefficients */ /************** DC_Parameters **************/ extern const VpProfileDataType DC_FXS_DEF[]; /* DC FXS Default -- Use for for all countries unless country file exists */ /************** Ring_Parameters **************/ extern const VpProfileDataType RING_25HZ_DEF[]; /* Default Ringing 25 Hz 50 Vrms - Use for all countries unless country file exists */ extern const VpProfileDataType RING_AT[]; /* Austria Ringing 50 Hz 50 Vrms */ extern const VpProfileDataType RING_CA[]; /* Canada Ringing 20 Hz 50 Vrms */ extern const VpProfileDataType RING_FI[]; /* Finland Ringing 50 Hz 50 Vrms */ extern const VpProfileDataType RING_FR[]; /* France Ringing 50 Hz 50 Vrms */ extern const VpProfileDataType RING_HK[]; /* Hong Kong SAR Ringing 20 Hz 50 Vrms */ extern const VpProfileDataType RING_JP[]; /* Japan Ringing 16 Hz 50 Vrms */ extern const VpProfileDataType RING_KR[]; /* S. Korea Ringing 20 Hz 50 Vrms */ extern const VpProfileDataType RING_SG[]; /* Singapore Ringing 24 Hz 50 Vrms */ extern const VpProfileDataType RING_TW[]; /* Taiwan Ringing 20 Hz 50 Vrms */ extern const VpProfileDataType RING_US[]; /* USA Ringing 20 Hz 50 Vrms */ /************** Call_Progress_Tones **************/ /************** Cadence_Definitions **************/ /************** Caller_ID **************/ /************** FXO_Dialing_Profile **************/ extern const VpProfileDataType FXO_DIALING_DEF[]; /* Default FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_ETSI[]; /* ETSI ES203 021 FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_AR[]; /* Argentina FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_AT[]; /* Austria FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_AU[]; /* Australia FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_BE[]; /* Belgium FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_BG[]; /* Bulgaria FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_BR[]; /* Brazil FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_CA[]; /* Canada FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_CH[]; /* Switzerland FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_CL[]; /* Chile FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_CN[]; /* China FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_CZ[]; /* Czech Republic FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_DE[]; /* Germany FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_DK[]; /* Denmark FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_EC[]; /* Ecuador FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_ES[]; /* Spain FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_FI[]; /* Finland FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_FR[]; /* France FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_GB[]; /* UK FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_GR[]; /* Greece FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_HK[]; /* Hong Kong SAR FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_HU[]; /* Hungary FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_ID[]; /* Indonesia FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_IE[]; /* Ireland FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_IL[]; /* Israel FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_IN[]; /* India FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_IS[]; /* Iceland FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_IT[]; /* Italy FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_JP[]; /* Japan FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_KR[]; /* S. Korea FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_MX[]; /* Mexico FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_MY[]; /* Malaysia FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_NL[]; /* Netherlands FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_NO[]; /* Norway FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_NZ[]; /* New Zealand FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_PL[]; /* Poland FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_PT[]; /* Portugal FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_RU[]; /* Russia FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_SE[]; /* Sweden FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_SG[]; /* Singapore FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_TH[]; /* Thailand FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_TK[]; /* Turkey FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_TW[]; /* Taiwan FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_US[]; /* USA FXO/Dialing */ extern const VpProfileDataType FXO_DIALING_ZA[]; /* South Africa FXO/Dialing */ #endif /* EVB_LE71HR8921G_REV_E_2M048_H */