IPS Group IPS2010M800 Multiple Space Parking Meter Controller Module User Manual
IPS Group Inc. Multiple Space Parking Meter Controller Module
User Manual
Technical Overview
IPS Multi Space Parking Meter Controller Module
(MSCM)
RF Exposure Rules and Regulations:
The system antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20
cm from all the persons and must not be co-located or operating in conjunction with any other antenna or
transmitter, except in accordance with FCC and Industry Canada multi-transmitter product procedures.
The system antenna(s) used for this module must not exceed 10dBi (CDMA BC0) and 9.31dBi (CDMA BC1) for
mobile and fixed operating configurations. Users and installers must be provided with antenna installation
instructions and transmitter operating conditions for satisfying RF exposure compliance.
The enclosed hardware 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.
Warning (Part 15.21)
Changes or modifications not expressly approved by IPS Group, Inc. could void the user’s authority to operate the
equipment. Manufacturer is not responsible for any radio or TV interference caused by unauthorized modifications to
this equipment.
Compliance Statement (Part 15.105(b))
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 instructions, may cause harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If this equipment does 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
Industry Canada (IC) regulatory information
This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two
conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including
interference that may cause undesired operation of the device.
Le présent appareil est conforme aux CNR d'Industrie
Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes :
(1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage
radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
Class B digital device notice
This Class B digital apparatus complies with Canadian
ICES-003, RSS-Gen and RSS-210.
Cet appareil numérique de la classe B est conforme à
la norme NMB-003, CNR-Gen et CNR-210 du Canada.
IPS GROUP INC November 2013
“To meet the host device labelling requirements, any host
equipment incorporating the M800 module must include the
FCC ID/IC certification number on the host as follows:
Contains FCC ID: SGWIPS2010M800
Contains IC: 11583A-IPS2010M800
Contains FCC ID: RI7UE910NA
Contains IC: 5131A-5131A-UE910NA”
IPS MSCM Overview
Module Description
This controller module is intended to be used across a number of IPS Multi Space Parking Meter platforms. These
platforms include IPS designed multi space parking terminals as well as a number of existing designs that can be
upgraded and retrofitted with this IPS technology. Parking terminals equipped with the MSCM may be configured as Pay
and Display, Pay by Space, Pay by Plate and other configurations.
The MSCM consist of a large LCD display and a controller section enclosed in a protective mechanical housing. The
controller PCBA supports a number of integrated features and interfaces to a number of optional peripheral units.
1 MSCM Rear View
Top Level Block Diagram
Integrated Features and Interfaces
Solar energy harvesting controller.
13.8V battery charger for external 12 VRLA battery.
Low voltage supplies for internal use,
5V, 12V and 24V power supplies for external peripherals.
Three MSP430 Mixed Signal Microcontrollers
4-way key pad diagnostic keypad
Beeper for audible feedback
GSM / CDMA Transceiver module for linkup to IPS servers
C1190 Low Power 315/433/868/915 MHz ISM/SRD bands Transceiver for vehicle sensors, Coin Canister, etc.
TRF7960RHBR 13.56-MHZ RFID Reader System
Graphic LCD with controlled backlight
Secondary low Voltage energy storage for backup and support*
Smart Card Interface
IPS Coin Validator Interface
A 6x6 Keypad matrix for various keypad configurations.
Two RS232 interfaces for Printers, Bank Note Acceptors, etc.
14 pin I/O connector for various sensors
Two 10-way Multi Drop Bus connectors for communication between controller and peripherals such as coin
handling units, down light and other controllers.
Theory of operation
Power Management
Solar energy is the standard power source for IPS Multi Space Parking Meters. Electrical energy is derived from high
efficiency solar panels. This input energy is converted by the MSCM to levels suitable charging and maintaining an
external 12V valve regulated lead acid (VRLA or sealed) battery system which in turn supplies power for internal power
backup, internal circuits and external peripherals.
Long term power autonomy is achieved by switching systems off when not in use and by storing surplus energy in a high
capacity VRLA battery. An average of one hour of sunshine per day is required to maintain this autonomy. This may vary
as the requirements for its lighting systems, connectivity and usage change.
The MSCM provides an additional input for a nominal 12VDC input, normally derived from AC mains or other power
systems, to support systems where sufficient solar energy is not available or internal heating elements need to be
powered during very cold conditions.
Idle Mode
A number of configurable idle screens are displayed during idle mode to reassure and inform the potential user of the
operational status of the unit, parking tariffs etc. Other systems, as defined by the configuration of the particular system,
remain inactive to conserve energy. Events such an a person approaching the unit, pressing a key, inserting a coin or
card or bank note will switch the unit to the active mode. The unit may also link up with the IPS managements systems
during this mode if triggered by an alarm condition or to exchange data, configurations or software or to log any
outstanding transaction details.
Active Mode
Active mode screens guides the user through the balance of the transaction proses related to the event that triggered
this mode. The MSCM continuously manages the power and operation of the connected and configured peripherals.
Connection to the backend systems via the GSM / CDMA interface may occur during this mode for card payment
authorisations or alarm conditions. Active mode reverts to idle mode on completion of the transaction.
Diagnostic Mode
Access to this mode is via a diagnostic button on the back of the MSCM or the by the insertion of a valid diagnostic card.
Navigation through the diagnostic menus is done via the four primary keypad buttons (+, -, cancel and OK) or via the
equivalent four buttons on the back of the MSCM. Access to the diagnostic mode should be cancelled explicitly. A no-
activity time out will also cancel this mode.
Cash Collection Mode
Cash collection is initiated by the insertion of a valid cash-collector’s card and exchanging the coin box and or bank note
stacker. This event is used to reset associated counters, establish a reconciliation point which is communicated to the
back-end and to print a cash collection receipt if configured to do so. The receipt accompanies the coin box /canister
and or bank note stacker as an additional security measure if required by the customer.
Primary and I/O Processors
Two linked Ti MSP430F5438 mixed signal microcontrollers form the Primary and I/O Processor pair.
The Primary Processor (U43) manages the functions normally associated with single space parking meters such as the
user interface, coin validator, card reader, server (back-end system) access, wireless vehicle detection, wireless coin
container communications, Host ID (RFID) detection and motion sensing.
The I/O Processor (U20) manages the additional functions associated with multi space parking meters such as the
receipt printer, bank note acceptor different keypad configurations, coin handling units, expiry indicators, down light
controllers and various cabinet sensors.
Full technical information falls outside the scope of this document and can be downloaded from
www.ti.com/product/msp430f5438
3-AXIS DIGITAL COMPASS
A Honeywell HMC5983 (U57) is a temperature compensated three-axis integrated circuit magnetometer and is used to
sense the MSCM’s orientation and motion.
http://www51.honeywell.com/aero/common/documents/myaerospacecatalog-documents/Defense_Brochures-
documents/HMC5983_3_Axis_Compass_IC.pdf
3-AXIS ACCELEROMETER
The Xtrinsic MMA8453Q 3-Axis, 10-bit/8-bit Digital Accelerometer (U23) supplements and enhances the functions
performed by the 3-axis digital compass (U57)
www.freescale.com/files/sensors/doc/data_sheet/MMA8453Q.pdf
I/O Sensors (H4)
This 14-way bus provides I2C comms, Connection for an external 25VP-P Piezo buzzer, and eight discrete switches to
GND. The switches are used to sense the status of various doors and locks in the cabinet. To conserve power these lines
are not permanently powered (i.e. not pulled up) but rather pulsed periodically to sense its status. A ‘high’ will be read
back from an internal sense capacitor if the switch is open and a ‘ low’ if switched to GND.
MODBUS1&2 (MB1 & MB2)
These two linked headers provides controlled V_BAT (+3.6V) and V_MAIN_BAT (+12V) and a communication channel to
a number of peripherals in a multidrug topology. Peripherals on this bus include a human proximity detector, expiry
indicator, coin handling unit etc.
KEYPADS (H7)
H7 is a 20-way header providing V_BAT (+3.6V), V_KBD_BK_LED (switched +3.6V) for keypad backlighting and an 8-Col x
8-Row keypad matrix. This allows any number of keypads to be daisy chained and each keypad to be individually
mapped to a 64 position key map.
Printer Power (H10) and Printer Data Port
The printer power header (H10) provides high capacity switched +5V, +12V and +24V suitable for supplying single or
double sided thermal paper receipt printers.
The printer data port header provides a bidirectional RS232 communication link between the receipt printer and the
MSCM.
Bank Note Acceptor Power (H9) and Note Data Port
The BNA power header (H9) provides high capacity switched +5V, +12V and +24V suitable for supplying Bank Note
Acceptors (BNA’s).
The NOTE DATA port header provides a bidirectional RS232 communication link as well as a logic level pulsed
communication channel between the BNA and the MSCM.
Technical Specifications.
NOTE that power levels and frequencies are pre-set and cannot be reconfigured or retuned by the user.
Main Battery Connection
PARAMETERS
CONDITIONS
MIN
TYP
MAX
UNITS
Charge Voltage to Battery
Sufficient Solar or EXT Power
13.8
Volt
Charge Current to Battery
“
500
mA
Current Demand from Battery
Insufficient Solar or EXT Power
5
mA
Solar Input
PARAMETERS
CONDITIONS
MIN
TYP
MAX
UNITS
Input Voltage Required
6
12
38
Volt
Current Demand from Panel
Normal Operation Average
5
mA
Backup Power Depleted
1000
EXT Power Input
PARAMETERS
CONDITIONS
MIN
TYP
MAX
UNITS
Input Voltage Required
6
12
38
Volt
Current Demand from Source
Normal Operation Average
5
mA
Backup Power Depleted
1000
Auxiliary 5V Supply
PARAMETERS
CONDITIONS
MIN
TYP
MAX
UNITS
Output Voltage
4.5
5.0
5.5
Volt
Available Output Current
Continuous
500
mA
Peak for 100 ms
5000
Auxiliary 12V Supply
PARAMETERS
CONDITIONS
MIN
TYP
MAX
UNITS
Output Voltage
11
12
13
Volt
Available Output Current
Continuous
500
mA
Peak for 100 ms
4000
Auxiliary 24V Supply
PARAMETERS
CONDITIONS
MIN
TYP
MAX
UNITS
Output Voltage
22
24
26
Volt
Available Output Current
Continuous
500
mA
Peak for 100 ms
3000
Graphic Display – General Specifications
ITEM
DESCRIPTION
UNIT
LCD type
FSTN Positive Transflective
-
Viewing Angle
6
O’clock
Module size (W×H×T)
136.6 × 176.0 × 5.0
mm
Viewing area (W×H)
120 × 82.65
mm
Viewing angle
6 O’clock
Number of dots
320 × 240
dots
Dot size (W×H)
0.31 × 0.31
mm
Dot pitch (W×H)
0.325 × 0.325
mm
Backlight
LED, White
Operating temperature
-4 to 185
-20 to 70
0F
0C
Backlight
ITEM
DESCRIPTION
UNIT
Technology
LED
Colour
White
Power Dissipation (MAX)
0.51
W
Forward Voltage (Typical)
3.1
V
Smart Card Interface
This 16-way proprietary interface connects the IPS Card Reader PCBA to the MSCM. Processed magnetic strip data
as well as direct access to smartcard chip contacts is achieved through this contact.
Coin Validator Interface
This 10-way proprietary interface connects the IPS Coin Validator to the MSCM. This allows for analog and digital
signals relating to the coin characteristics being analysed to be communicated to the MSCM for further processing.
GSM / CDMA
The primary component for this interface is the Telit UE910-NAD installed in U102. The UE910 is an HSPA 7.2 Mbps
technology member of the xE910 family.
For further information visit http://www.telit.com/en/products/umts.php
UE910-NAD
ITEM
DESCRIPTION
All UE910 variants are dual-band GSM/GPRS/EDGE and dual band UMTS/HSPA
Features
Advanced E-GPRS/WCDMA/HSDPA/HSUPA Software protocol stack (Layer
1 to 3) – Version: 3GPP Release 7
GSM Quad band (900/1800 MHz for EUx, 850/1900 MHz for NAx)
WCDMA dual-band: B1&B8 for the EUx models and B2&B5 for the NAx
models
HSDPA up 7.2Mbps
HSUPA up to 5.76Mbps
WCDMA up to 384kbps downlink/uplink
DTM (Dual Transfer Mode)
CPC (DRX/DTX) (Continuous Packet Connectivity)
DARP
Control via AT commands according to 3GPP TS27.005, 27.007 and Telit
customized AT commands
Serial port multiplexer 3GPP TS27.010
SIM application Tool Kits 3GPP TS 51.014
Power consumption (typical values)
- Stand-by current 2G, DRX5, 1.1 mA
- Stand-by current 3G, DRX7, 1.2 mA
Output power
- Class 4 (2W) @ 850 / 900 MHz, GSM
- Class 1 (1W) @ 1800 / 1900 MHz, GSM
- Class E2 (0.5W) @ 850/900 MHz, EDGE
- Class E2 (0.4W) @ 1800/1900 MHz, EDGE
- Class 3 (0.25W) @ 850/900/1900/2100 MHz, WCDMA
Sensitivity:
- 109 dBm (typ.) @ 850 / 900 MHz (GSM)
- 110 dBm (typ.) @ 1800 / 1900 MHz (GSM)
- 111 dBm (typ.) @ 850/900/1900 / 2100 MHz (WCDMA)
Data Transmission
HSPA: category 8 in downlink e category 6 in uplink
- DL up to 7.2Mbps
- UL up to 5.76Mbps
WCDMA: up to 384kbps downlink/uplink
Asynchronous non-transparent CSD up to 9.6kbps
GPRS class 10 for NAx variants and class 33 for EUX variants
EDGE class 10 for NAx variants and class 33 for EUX variants
Coding scheme 1 to 4 (GPRS) & Modulation Coding scheme 1 to 9 (EDGE)
Approvals
Temperature Range
-400F ~ +1850F (-400C ~ +850C)
RoHS compliance
RoHS (Restriction of Hazardous Substances) directive of the European Union (EU
directive 2011/65/EU)
Operating Frequency
The operating frequencies in GSM850, EGSM900, DCS1800, PCS1900, WCDMA
modes are compliant to the 3GPP and WCDMA specifications.
Mode
Freq. TX (MHz)
Freq. RX (MHz)
Channels
TX - RX offset
GSM850
824.2 ~ 848.8
869.2 ~ 893.8
128 ~ 251
45 MHz
EGSM900
890.0 ~ 914.8
935.0 ~ 959.8
0 ~ 124
45 MHz
880.2 ~ 889.8
925.2 ~ 934.8
975 ~ 1023
45 MHz
DCS1800
1710.2 ~ 1784.8
1805.2 ~ 1879.8
512 ~ 885
95MHz
PCS1900
1850.2 ~ 1909.8
1930.2 ~ 1989.8
512 ~ 810
80MHz
WCDMA850
(band V)
826.4 ~ 846.6
871.4 ~ 891.6
Tx: 4132 ~ 4233
Rx: 4357 ~ 4458
45MHz
WCDMA900
(band VIII)
882.4 ~ 912.6
927.4 ~ 957.6
Tx: 2712 ~ 2863
Rx: 2937 ~ 3088
45MHz
WCDMA1900
(band II)
1852.4 ~ 1907.6
1932.4 ~ 1987.6
Tx: 9262 ~ 9538
Rx: 9662 ~ 9938
80MHz
WCDMA2100
(Band I)
1922.4 ~ 1977.6
2112.4 ~ 2167.6
Tx: 9612 ~ 9888
Rx: 10562 ~ 10838
190MHz
Transmitter output
power
The UE910 family transceiver output of GSM/GPRS mode in 850/900MHz bands
are class 4 in accordance with the specifications which determine the nominal 2W
peak RF power (+33dBm) on 50ohm. In the 1800/1900MHz bands are class 1 in
accordance with the specification which determines the nominal 1W peak RF
power (+30dBm) on 50ohm.
The UE910 family transceiver output of EDGE mode in 850/900MHz bands are class
E2 in accordance with the specifications which determine the nominal 0.5W peak
RF power (+27dBm) on 50ohm. In the 1800/1900MHz bands are class E2 in
accordance with the specification which determine the nominal 0.4W peak RF
power (+26dBm) on 50ohm.
The UE910 family transceiver output of WCDMA mode in 850/900/1900/2100MHz
bands is class 3 in accordance with the specifications which determine the nominal
0.25W peak RF power (+24dBm) on 50ohm.
Sensitivity
Band
Typical
Note
GSM 850
-109.5 dBm
BER Class II < 2.44 %
GSM 900
-109 dBm
BER Class II < 2.44 %
DCS 1800
-110 dBm
BER Class II < 2.44 %
PCS 1900
-109.5 dBm
BER Class II < 2.44 %
WCDMA FDD B1
-111 dBm
BER < 0.1 %
WCDMA FDD B2
-110 dBm
BER < 0.1 %
WCDMA FDD B5
-111 dBm
BER < 0.1 %
WCDMA FDD B8
-110 dBm
BER < 0.1 %
Antenna
For further information,
please refer to the UE910
family Hardware User
Guide
ANTENNA REQUIREMENTS
Frequency range
Depending by frequency band(s) provided by the
network operator, the customer shall use the most
suitable antenna for that/those band(s)
Bandwidth (GSM/EDGE)
70 MHz in GSM850, 80 MHz in GSM900, 170 MHz in
DCS & 140 MHz PCS band
Bandwidth
(WCDMA)
70 MHz in WCDMA Band V
80 MHz in WCDMA Band VIII
140 MHz in WCDMA Band II
250 MHz in WCDMA Band I
Gain
1.4dBi @900 and 3dBi @1800
1.4dBi @850 and 3dBi @1900
1.43 dBi (WCDMA)
Impedance
50 ohm
Input power
> 33dBm(2 W) peak power in GSM
> 24dBm Average power in WCDMA
VSWR absolute max
≤ 5:1 (limit to avoid permanent damage)
VSWR recommended
≤ 2:1 (limit to fulfil all regulatory requirements)
Supply voltage
Nominal Supply Voltage
3.8V
Operating Voltage Range
3.4 ~ 4.2V
Extended Operating Voltage Range
3.1 ~ 4.5V
Power consumption
Depending on network
configuration and not
under module control
UE910
Mode
Average
(mA)
Mode Description
SWITCHED OFF
Module supplied but switched off
Switched Off
180uA
IDLE mode (WCDMA)
AT+CFUN=1
12.2
Normal Mode: full functionality of the module
AT+CFUN=5
1.8
Full functionality with power saving; DRX7;
Module registered on network can receive
incoming calls and SMS
IDLE mode (GSM/EDGE)
AT+CFUN=1
19
Normal Mode: full functionality of the module
AT+CFUN=4
16.5
Module is not registered on network
AT+CFUN=5
1.2
Full functionality with power saving; DRX9
(1.3mA in case of DRX5)
Operative mode (WCDMA)
WCDMA Voice
152
WCDMA voice call (TX = 10dBm)
WCDMA HSDPA (0dBm)
187
WCDMA data call (Cat 8, TX = 0dBm)
WCDMA HSDPA (0dBm)
494
WCDMA data call (Cat 8, TX = 22dBm)
Operative mode (EDGE)
EDGE 4TX+1RX
EDGE Sending data mode
GSM 850/900 – G8
495
DCS 1800/ PCS1900 – G7
484
Operative mode (GSM)
CSD TX and RX mode
GSM VOICE CALL
GSM850/900 CSD PL5
220
DCS1800/ PCS 1900 CSD PL0
167
GPRS 4TX+1RX
GPRS Sending data mode
GSM 850/900 PL5
580
DCS1800/PCS1900 PL0
438
Data Transmission
capabilities
The UE910 family supports:
HSPA: D/L up to 7.2Mbps, U/L up to 5.76Mbps
Asynchronous non-transparent CSD up to 9.6kbps for GSM, 14.4kbps for
WCDMA
EDGE Class 10 for NAx variants and Class 33 for EUx variants
Coding scheme 1 to 4 (GPRS) & Modulation Coding scheme 1 to 9 (EDGE)
Local security
management
The local security management can be done with the lock of Universal Subscriber
Identity Module (USIM), and the security code will be requested at power-up.
Local Radio
Based on the Ti CC1101 this sub-1 GHz transceiver designed for very low-power wireless applications. The circuit
is mainly intended for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency bands
at 315, 433, 868, and 915 MHz, but can also be programmed for operation at other frequencies in the 300-348
MHz, 387-464 MHz and 779-928 MHz bands.
This wireless system is used for data communications with nearby local systems such as the wireless coin
canister electronics.
NOTE that power levels and frequencies are pre-set and cannot be reconfigured or retuned by the user.
ITEM
DESCRIPTION
RF Performance
High sensitivity
-116 dBm at 0.6 kBaud, 433 MHz, 1% packet error rate
-112 dBm at 1.2 kBaud, 868 MHz, 1% packet error rate
Low current consumption (14.7 mA in RX, 1.2 kBaud, 868 MHz)
Programmable output power up to +12 dBm for all supported frequencies
Excellent receiver selectivity and blocking performance
Programmable data rate from 0.6 to 600 kbps
Frequency bands: 300-348 MHz, 387-464 MHz and 779-928 MHz
Analog Features
2-FSK, 4-FSK, GFSK, and MSK supported as well as OOK and flexible ASK
shaping
Suitable for frequency hopping systems due to a fast settling frequency
synthesizer; 75 μs settling time
Automatic Frequency Compensation (AFC) can be used to align the
frequency synthesizer to the received signal centre frequency
Integrated analog temperature sensor
Digital Features
Flexible support for packet oriented systems; On-chip support for sync
word detection, address check, flexible packet length, and automatic CRC
handling.
Efficient SPI interface; All registers can be programmed with one “burst”
transfer
Digital RSSI output
Programmable channel filter bandwidth
Programmable Carrier Sense (CS) indicator
Programmable Preamble Quality Indicator (PQI) for improved protection
against false sync word detection in random noise
Support for automatic Clear Channel Assessment (CCA) before
transmitting (for listen-before-talk systems)
Support for per-package Link Quality Indication (LQI)
Optional automatic whitening and de-whitening of data
General
RoHS compliant and no antimony or bromine
Suited for systems targeting compliance with EN 300 220 (Europe) and
FCC CFR Part 15 (US)
Suited for systems targeting compliance with the Wireless MBUS standard
EN 13757-4:2005
RFID
A Ti TRF7960RHBR is used read the RFID tags of the host housing and the interchangeable coin canisters.
A full datasheet is available at www.ti.com/lit/gpn/trf7960
NOTE that power levels and frequencies are pre-set and cannot be reconfigured or retuned by the user.
ITEM
DESCRIPTION
Features
Completely Integrated Protocol Handling
Separate Internal High-PSRR Power Supplies for Analog, Digital, and PA
Sections Provide Noise Isolation for Superior Read Range and Reliability
Dual Receiver Inputs With AM and PM Demodulation to Minimize
Communication Holes
Receiver AM and PM RSSI
Reader-to-Reader Anti-Collision
Ultra-Low-Power Modes
o Power Down < 1 µA
o Standby 120 µA
o Active (Rx only) 10 mA
Standard
ISO 14443A
ISO 14443B
ISO 15693
ISO 180003
Operating Temperature
-40 to + 110 0C
Current Consumption
10 mA
Frequency
13.56 MHz
Crystals used
X2, X3, X5 32.768kHz Crystal Seiko SSPT7F-12.5PF20-R
See Crystal Seiko SSPT7F-12.5PF20-R.pdf.
X4 CRYSTAL SMD 13.56MHz ECS-135.6-18-23A-EN-TR
See ecx-64a_ecx-64cr.pdf
X1 26 MHz Crystal NX3225GA
See Crystal NX3225GA.pdf