Nokia Solutions and Networks T5CT1 Cellular CDMA base station User Manual IHET5CT1 GLI2 Manual 5 of 6

Nokia Solutions and Networks Cellular CDMA base station IHET5CT1 GLI2 Manual 5 of 6

IHET5CT1 GLI2 Manual 5 of 6

Download: Nokia Solutions and Networks T5CT1 Cellular CDMA base station User Manual IHET5CT1 GLI2 Manual 5 of 6
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Document DescriptionIHET5CT1 GLI2 Manual 5 of 6
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Date Submitted2002-11-01 00:00:00
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Document TitleIHET5CT1 GLI2 Manual 5 of 6

Test Equipment Preparation
– continued
Agilent E4406A/E4432B Test
Equipment Interconnection
To provide proper operation during testing when both units are required,
the 10 MHz reference signal from the E4406A transmitter test set must
be provided to the E4432B signal generator. Connect a BNC (M)–BNC
(M) cable from the E4406A 10 MHz OUT (SWITCHED) connector to
the E4432B 10MHz IN connector as shown in Figure F-5.
Figure F-5: Agilent 10 MHz Reference Connections
E4432B
10 MHz IN
TO GPIB BOX
E4406A
10 MHz OUT
(SWITCHED)
F-10
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Manual Cable Calibration
Calibrating Test Cable Setup
using HP PCS Interface (HP83236)
Table F-9 covers the procedure to calibrate the test equipment using
the HP8921 Cellular Communications Analyzer equipped with the
HP83236 PCS Interface.
NOTE
This calibration method must be executed with great care.
Some losses are measured close to the minimum limit of
the power meter sensor (–30 dBm).
Prerequisites
Ensure the following prerequisites have been met before proceeding:
 Test equipment to be calibrated has been connected correctly for cable
calibration.
 Test equipment has been selected and calibrated.
Table F-9: Calibrating Test Cable Setup (using the HP PCS Interface)
Step
Action
NOTE
Verify that GPIB controller is turned off.
Insert HP83236 Manual Control System card into memory card slot.
Press the Preset pushbutton.
Under Screen Controls, press the TESTS pushbutton to display the TESTS (Main Menu) screen.
Position the cursor at Select Procedure Location and select it. In the Choices selection box, select
CARD.
Position the cursor at Select Procedure Filename and select it. In the Choices selection box, select
MANUAL.
Position the cursor at RUN TEST and select it. HP must be in Control Mode Select YES.
If using HP 83236A:
Set channel number=:
– Position cursor at Channel
Number and select it.
– Enter the chan# using the numeric
keypad; press [Enter] and the
screen will go blank.
– When the screen reappears, the
chan# will be displayed on the
channel number line.
Jan 2002
If using HP 83236B:
Set channel frequency:
– Position cursor at Frequency Band and press Enter.
– Select User Defined Frequency.
– Go Back to Previous Menu.
– Position the cursor to 83236 generator frequency and
enter actual RX frequency.
– Position the cursor to 83236 analyzer frequency and
enter actual TX frequency.
. . . continued on next page
SC4812ET BTS Optimization/ATP — CDMA LMF
F-11
Manual Cable Calibration – continued
Table F-9: Calibrating Test Cable Setup (using the HP PCS Interface)
Step
Action
Set RF Generator level:
– Position the cursor at RF Generator Level and select it.
– Enter –10 using the numeric keypad; press [Enter] and the screen will go blank.
– When the screen reappears, the value –10 dBm will be displayed on the RF Generator Level line.
Set the user fixed Attenuation Setting to 0 dBm:
– Position cursor at Analyzer Attenuation and select it
– Position cursor at User Fixed Atten Settings and select it.
– Enter 0 (zero) using the numeric keypad and press [Enter].
10
Select Back to Previous Menu.
11
Record the HP83236 Generator Frequency Level:
Record the HP83236B Generator Frequency Level:
– Position cursor at Show Frequency and Level Details and select it.
– Under HP83236 Frequencies and Levels, record the Generator Level.
– Under HP83236B Frequencies and Levels, record the Generator Frequency Level (1850 – 1910
MHz).
– Position cursor at Prev Menu and select it.
12
Click on Pause for Manual Measurement.
13
Connect the power sensor directly to the RF OUT ONLY port of the PCS Interface.
14
On the HP8921A, under To Screen, select CDMA GEN.
15
Move the cursor to the Amplitude field and click on the Amplitude value.
16
Increase the Amplitude value until the power meter reads 0 dBm ±0.2 dB.
NOTE
The Amplitude value can be increased coarsely until 0 dBM is reached; then fine tune the amplitude
by adjusting the Increment Set to 0.1 dBm and targeting in on 0 dBm.
17
Disconnect the power sensor from the RF OUT ONLY port of the PCS Interface.
* IMPORTANT
The Power Meter sensor’s lower limit is –30 dBm. Thus, only components having losses ≤30 dB
should be measured using this method. For further accuracy, always re-zero the power meter
before connecting the power sensor to the component being calibrated. After connecting the
power sensor to the component, record the calibrated loss immediately.
18
Disconnect all components in the test setup and calibrate each one separately by connecting each
component, one-at-a-time, between the RF OUT ONLY PORT and the power sensor. Record the
calibrated loss value displayed on the power meter.
 Example:
(A) Test Cable(s)
(B) 20 dB Attenuator =
(B) Directional Coupler =
–1.4 dB
–20.1 dB
–29.8 dB
. . . continued on next page
F-12
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Jan 2002
Manual Cable Calibration – continued
Table F-9: Calibrating Test Cable Setup (using the HP PCS Interface)
Step
Action
19
After all components are calibrated, reassemble all components together and calculate the total test
setup loss by adding up all the individual losses:
 Example:
Total test setup loss = –1.4 –29.8 –20.1 = –51.3 dB.
This calculated value will be used in the next series of tests.
20
Under Screen Controls press the TESTS button to display the TESTS (Main Menu) screen.
21
Select Continue (K2).
22
Select RF Generator Level and set to –119 dBm.
23
Click on Pause for Manual Measurement.
24
Verify the HP8921A Communication Analyzer/83203A CDMA interface setup is as follows (fields
not indicated remain at default):
 Verify the GPIB (HP–IB) address:
–
–
–
–
under To Screen, select More
select IO CONFIG
Set HP–IB Adrs to 18
set Mode to Talk&Lstn
 Verify the HP8921A is displaying frequency (instead of RF channel)
– Press the blue [SHIFT] button, then press the Screen Control [DUPLEX] button; this switches to
the CONFIG (CONFIGURE) screen.
– Use the cursor control to set RF Display to Freq
25
Refer toChapter 3 for assistance in setting the cable loss values into the LMF.
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
F-13
Manual Cable Calibration – continued
Figure F-6: Cable CalibrationUsing HP8921 with PCS Interface
MEMORY
CARD
SLOT
POWER
SENSOR
(A)
(A)
POWER
SENSOR
(B)
(B)
20 dB / 20 WATT
ATTENUATOR
POWER
SENSOR
(C)
POWER
SENSOR
(C)
150 W
NON–RADIATING
RF LOAD
F-14
30 dB
DIRECTIONAL
COUPLER
SC4812ET BTS Optimization/ATP — CDMA LMF
FW00292
Jan 2002
Manual Cable Calibration – continued
Calibrating Test Cable Setup
using Advantest R3465
NOTE
Be sure the GPIB Interface is OFF for this procedure.
Advantest R3465 Manual Test setup and calibration must be performed
at both the TX and RX frequencies.
Table F-10: Procedure for Calibrating Test Cable Setup Using Advantest R3465
Step
Action
* IMPORTANT
– This procedure can only be performed after test equipment has been allowed to warm–up and
stabilize for a minimum of 60 minutes.
Press the SHIFT and the PRESET keys located below the display
Press the ADVANCE key in the MEASUREMENT area of the control panel.
Select the CDMA Sig CRT menu key
Select the Setup CRT menu key
Using the vernier knob and the cursor keys set the following parameters
NOTE
Fields not listed remain at default
Generator Mode: SIGNAL
Link: FORWARD
Level Unit: dBm
CalCorrection: ON
Level Offset: OFF
Select the return CRT menu key
Press FREQ key in the ENTRY area
Set the frequency to the desired value using the keypad entry keys
Verify that the Mod CRT menu key is highlighting OFF; if not, press the Mod key to toggle it OFF.
10
Verify that the Output CRT menu key is highlighting OFF; if not, press the Output key to toggle it
OFF.
11
Press the LEVEL key in the ENTRY area.
12
Set the LEVEL to 0 dBm using the key pad entry keys.
13
Zero power meter. Next connect the power sensor directly to the “RF OUT” port on the R3561L
CDMA Test Source Unit.
14
Press the Output CRT menu key to toggle Output to ON.
15
Record the power meter reading ________________________
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
F-15
Manual Cable Calibration – continued
Table F-10: Procedure for Calibrating Test Cable Setup Using Advantest R3465
Step
16
Action
Disconnect the power meter sensor from the R3561L RF OUT jack.
* IMPORTANT
The Power Meter sensor’s lower limit is –30 dBm. Thus, only components having losses < 30 dB
should be measured using this method. For best accuracy, always re–zero the power meter before
connecting the power sensor to the component being calibrated. Then, after connecting the
power sensor to the component, record the calibrated loss immediately.
17
Disconnect all components in the the test setup and calibrate each one separately. Connect each
component one–at–a–time between the “RF OUT” port and the power sensor (see Figure F-7, “Setups
A, B, and C”). Record the calibrated loss value displayed on the power meter for each connection.
Example:
(A) 1st Test Cable
= –0.5 dB
(B) 2nd Test Cable
= –1.4 dB
(C) 20 dB Attenuator
= –20.1 dB
(D) 30 dB Directional Coupler
= –29.8 dB
18
Press the Output CRT menu key to toggle Output OFF.
19
Calculate the total test setup loss by adding up all the individual losses:
Example:
Total test setup loss = 0.5 + 1.4 + 20.1 + 29.8 = 51.8 dB
This calculated value will be used in the next series of tests.
20
Press the FREQ key in the ENTRY area
21
Using the keypad entry keys, set the test frequency to the RX frequency
22
Repeat steps 9 through 19 for the RX frequency.
23
Refer to Chapter 3 for assistance in setting the cable loss values into the LMF.
F-16
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Manual Cable Calibration – continued
Figure F-7: Cable Calibration using Advantest R3465
RF OUT
POWER
SENSOR
(A) & (B)
POWER
SENSOR
(C)
20 DB / 2 WATT
ATTENUATOR
POWER
SENSOR
(C)
POWER
SENSOR
(D)
100 W
NON–RADIATING
RF LOAD
Jan 2002
FW00320
30 DB
DIRECTIONAL
COUPLER
SC4812ET BTS Optimization/ATP — CDMA LMF
F-17
Manual Cable Calibration – continued
Calibrating HP 437 Power
Meter
Precise transmit output power calibration measurements are made using
a bolometer–type broadband power meter with a sensitive power sensor.
Follow the steps outlined in Table F-11 to enter information unique to
the power sensor before calibrating the test setup. Refer to Figure F-8 as
required.
IMPORTANT
This procedure must be done in conjunction with the
automated calibration to enter power sensor specific
calibration values.
Figure F-8: Power Meter Detail
CONNECT POWER SENSOR
TO POWER REFERENCE
WHEN CALIBRATING UNIT.
POWER REFERENCE IS
ENABLED USING THE SHIFT
KEYS
SHIFT (BLUE) PUSHBUTTON –
ACCESSES FUNCTION AND
DATA ENTRY KEYS IDENTIFIED
WITH LIGHT BLUE TEXT ON
THE FRONT PANEL ABOVE
THE BUTTONS
CONNECT POWER
SENSOR WITH POWER
METER TURNED OFF
FW00308
Table F-11: Power Meter Calibration Procedure
Step
Action
! CAUTION
Do not connect/disconnect the power meter sensor cable with ac power applied to the meter.
Disconnection could result in destruction of the sensing element or mis–calibration.
– Make sure the power meter AC LINE pushbutton is OFF.
– Connect the power sensor cable to the SENSOR input.
Set the AC LINE pushbutton to ON.
NOTE
The calibration should be performed only after the power meter and sensor have been allowed to
warm–up and stabilize for a minimum of 60 minutes.
F-18
Perform the following to set or verify the GPIB address:
– To enter the SPECIAL data entry function, press [SHIFT] then [PRESET] .
– Use the [ ] or [ ] button to select HP–IB ADRS; then press [ENTER].
– Use the [ ] or [ ] button to select HP–IB ADRS 13; then press [ENTER].
– To EXIT the SPECIAL data entry function press [SHIFT] then [ENTER].
. . . continued on next page
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Manual Cable Calibration – continued
Table F-11: Power Meter Calibration Procedure
Step
Action
Perform the following to set or verify the correct power sensor model:
– Press [SHIFT] then [ ] to select SENSOR.
– Identify the power sensor model number from the sensor label. Use the [ ] or [ ] button to
select the appropriate model; then press [ENTER].
NOTE
Be sure the PWR REF (power reference) output is OFF (observe that the triangular indicator is NOT
displayed as shown in Step 7). If on, press [SHIFT] then [ ] to turn it off.
Press [ZERO] . Display will show “Zeroing ******.” Wait for process to complete.
Connect the power sensor to the POWER REF output.
To turn on the PWR REF, perform the following:
– Press [SHIFT] then [ ].
– Verify that the triangular indicator (below) appears in the display above “PWR REF”.
Perform the following to set the REF CF %:
– Press ([SHIFT] then [ZERO] ) for CAL.
– Enter the sensor’s REF CF % from the sensor’s decal using the arrow keys and press [ENTER].
(The power meter will display ”CAL *****” for a few seconds.)
NOTE
If the REF CAL FACTOR (REF CF) is not shown on the power sensor, assume it to be 100%.
Perform the following to set the CAL FAC %:
– Press [SHIFT] then [FREQ] for CAL FAC.
– On the sensor’s decal, locate an approximate calibration percentage factor (CF%) at 2 GHz. Enter
the sensor’s calibration % (CF%) using the arrow keys and press [ENTER].
When complete, the power meter will typically display 0.05 dBm. (Any reading between 0.00 and
0.10 is normal.)
10
To turn off the PWR REF, perform the following:
– Press [SHIFT] then [ ].
– Disconnect the power sensor from the POWER REF output.
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
F-19
Manual Cable Calibration – continued
Calibrating Gigatronics 8541C
power meter
Precise transmit output power calibration measurements are made using
a bolometer–type broadband power meter with a sensitive power sensor.
Follow the steps in Table F-12 to enter information unique to the power
sensor.
Table F-12: Calibrate Gigatronics 8541C Power Meter
Step
Action
! CAUTION
Do not connect/disconnect the power meter sensor cable with AC power applied to the meter.
Disconnection could result in destruction of the sensing element or miscalibration.
NOTE
Allow the power meter and sensor to warm up and stabilize for a minimum of 60 minutes before
performing the calibration procedure.
 Make sure the power meter POWER pushbutton is OFF.
 Connect the power sensor cable to the SENSOR input.
 Set the POWER pushbutton to ON.
Verify the Power GPIB mode and address:
Press MENU. Use the
Use the
arrow key to select GPIB, and press ENTER.
Use the
Press
arrow key to select CONFIG MENU, and press ENTER.
arrow keys to set MODE to 8541C.
and use the
arrow keys as required to set ADDRESS to 13.
Press ENTER.
 Connect the power sensor to the CALIBRATOR output connector.
 Press ZERO.
 Wait for the process to complete. Sensor factory calibration data is read to power meter during this
process.
 Disconnect the power sensor from the CALIBRATOR output.
F-20
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Manual Cable Calibration – continued
Figure F-9: Gigatronics 8541C Power Meter Detail
CONNECT POWER SENSOR TO
CALIBRATOR POWER REFERENCE
WHEN CALIBRATING/ZEROING UNIT
CONNECT POWER SENSOR
WITH POWER METER
TURNED OFF
FRONT View
AC POWER
GPIB CONNECTION
REAR View
FW00564
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
F-21
Manual Cable Calibration – continued
Notes
F-22
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Appendix G: In–Service Calibration
Appendix Content
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Purpose . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Equipment Warm up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
G-1
G-1
G-1
Power Delta Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Delta Calibration Introduction . . . . . . . . . . . . . . . . . . . . . . . . . .
HP8921A Power Delta Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Advantest R3465 Power Delta Calibration . . . . . . . . . . . . . . . . . . . . . .
HP8935 Power Delta Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Agilent E4406A Power Delta Calibration . . . . . . . . . . . . . . . . . . . . . . .
G-2
G-2
G-2
G-4
G-7
G-9
In–Service Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
G-12
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
Table of Contents
– continued
Notes
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Introduction
Purpose
This procedure is a guide to expanding your system with multiple
carriers while the system remains in service. This procedure also allows
you to perform on site maintenance (replace defective boards and
recalibrate) while the remainder of the site stays in service.
Motorola recommends that you perform this procedure during a
maintenance window.
This procedure cannot be performed on BTSs with 4–to–1 combiners.
The procedure can only be performed on one side of the BTS at one
time. That is, LPAs 1, 2 ,3, 7, 8, 9 (feed antennas 1, 2, 3) can be
calibrated while LPAs 6, 7, 8, 10, 11, 12 (feed antennas 4, 5, 6) remain
in service and vice versa.
Equipment Warm up
IMPORTANT
Calibration of the communications test set (or equivalent
test equipment) must be performed at the site before
calibrating the overall test set. Calibrate the test equipment
after it has been allowed to warm-up and stabilize for a
minimum of 60 minutes.
CAUTION
If any piece of test equipment (i.e., test cable, RF adapter)
has been replaced, re-calibration must be performed.
Failure to do so could introduce measurement errors,
causing incorrect measurements and degradation to system
performance.
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-1
Power Delta Calibration
Power Delta Calibration
Introduction
The In–service calibration procedure has several differences from a
normal calibration procedure. One of these is the use of a spectrum
analyzer instead of a power meter to measure power. Power meters are
broadband measurement devices and cannot be used to measure power
during In–service Calibration since other carriers are operating. A
spectrum analyzer can be used because it measures power at a given
frequency. However, measuring power using a spectrum analyzer is less
accurate than using a power meter. Therefore, you must compensate for
the difference (delta) between the power meter and the spectrum
analyzer.
HP8921A Power Delta
Calibration
Use the HP8921A Spectrum Analyzer to measure power during
In–Service Calibration for 800 MHz systems. After the offset value has
been calculated, add it to the TX cable loss value.
Follow the procedure in Table G-1 to perform the HP8921A Power Delta
Calibration procedure.
NOTE
This procedure requires two HP8921As.
Table G-1: HP8921A Power Delta Calibration Procedure
Step
Action
* IMPORTANT
Perform this procedure after test equipment has been allowed to warm–up and stabilize for a minimum
of 60 minutes.
Connect a short RF cable between the HP8921A Duplex Out port and the HP437B power sensor (see
Figure G-1).
Set the HP8921A signal source as follows:
– Measure mode to CDMA Generator
– Frequency to the CDMA Calibration target frequency
– CW RF Path to IQ
– Output Port to Dupl
– Data Source to Random
– Amplitude to 0 dBm
Measure and record the power value reading on the HP437B Power Meter.
Record the Power Meter reading as result A ________________________.
. . . continued on next page
G-2
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Power Delta Calibration – continued
Table G-1: HP8921A Power Delta Calibration Procedure
Step
Action
Turn off the source HP8921A signal output, and disconnect the HP437B.
NOTE
Leave the settings on the source HP8921A for convenience in the following steps.
Connect the short RF cable between the source HP8921A Duplex Out port and the measuring
HP8921A RF–IN port (see Figure G-2).
Ensure that the source HP8921A settings are the same as in Step 2.
Set the measuring HP8921A as follows:
– Measure mode to CDMA Anl
– Frequency to the CDMA calibration target frequency
– Input Attenuation to 0 dB
– Input port to RF–IN
– Gain to Auto
– Analyzer Direction to Fwd
Turn on the source HP8921A signal output.
10
Measure and record the channel power reading on the measuring HP8921A as result
B ________________________.
11
Turn off the source HP8921A signal output and disconnect the equipment.
12
Compute the delta between HP437B and HP8921A using the following formula:
Delta = A – B
Example: Delta = –0.70 dBm – (–1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm – 0.55 dBm = –0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In–Service Calibration.
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-3
Power Delta Calibration – continued
Figure G-1: Delta Calibration Setup – HP8921A to HP437B
HP 8921A
HP437B
SENSOR
Power
Sensor
DUPLEX
OUT
Short RF Cable
FW00801
Figure G-2: Delta Calibration Setup – HP8921A to
HP8921A
Measurement HP8921A
Source HP8921A
DUPLEX
OUT
RF
IN/OUT
Short RF Cable
FW00802
Advantest R3465 Power Delta
Calibration
Follow the procedure in Table G-2 to perform the Advantest 3465 Power
Delta Calibration procedure.
Table G-2: Advantest Power Delta Calibration Procedure
Step
Action
* IMPORTANT
Perform this procedure after test equipment has been allowed to warm–up and stabilize for a minimum
of 60 minutes.
On the Advantest R3465:
Press the SHIFT and the PRESET keys located below the CRT display.
Press the ADVANCE key in the Measurement area of the control panel.
Press the CDMA Sig CRT menu key.
Press the FREQ key in the Entry area of the control panel.
. . . continued on next page
G-4
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Power Delta Calibration – continued
Table G-2: Advantest Power Delta Calibration Procedure
Step
Action
Set the frequency to the desired value using the keypad entry keys.
Press the LEVEL key in the Entry area of the control panel.
Set the LEVEL to 0 dBm using the keypad entry keys.
Verify the Mod CRT menu key is highlighting OFF, if not press the Mod key to toggle it OFF.
Verify the Output CRT menu key is highlighting OFF, if not press the Output key to toggle it OFF.
On the HP 437 Power Meter:
10
Zero the Power Meter prior to connecting the power sensor to the RF cable from the signal generator.
* IMPORTANT
For best accuracy, always re–zero the power meter before connecting the power sensor to the
component being calibrated.
11
Connect the RF cable from the R3561L CDMA Test Source Unit RF OUT port to the power sensor,
refer to Figure G-3.
12
Press the Output CRT menu key to toggle the Output to ON.
13
Record the Power Meter reading as result A ________________________.
14
Press the Output CRT menu key to toggle the Output to OFF.
15
Connect the RF cable from the R3561L CDMA Test Source Unit RF OUT port to the Spectrum
Analyzer INPUT Port, refer to Figure G-4.
16
Press the Output CRT menu key to change the Output to ON.
17
Press the CW key in the Measurement area of the control panel.
18
Press the LEVEL key in the Entry area of the control panel.
19
Set the REF LEVEL to 10 dBm using the keypad entry keys.
20
Press the dB/div CRT menu key.
21
Press the 10 dB/div CRT menu key.
22
Press the FREQ key in Entry area of the control panel.
23
Set the frequency to the desired value using the keypad entry keys.
24
Press the more 1/2 CRT menu key.
25
Press the Preselector CRT menu key to highlight 3.0G.
26
Press the FORMAT key in the Display Control area of the control panel.
27
Press the TRACE CRT menu key.
28
Press the AVG A CRT menu key.
29
Set AVG to 20 using keypad entry keys.
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-5
Power Delta Calibration – continued
Table G-2: Advantest Power Delta Calibration Procedure
Step
Action
30
Press the return CRT menu key.
31
Press the SPAN key in the Entry area of the control panel.
32
Press the Zero Span CRT menu key.
33
Press the BW key in the Entry area of the control panel.
34
Press the RBW CRT menu key to highlight MNL. using keypad entry keys enter 30 kHz.
35
Set RBW to 30 kHz using keypad entry keys.
36
Press the VBW CRT menu key to highlight MNL.
37
Set VBW to 1 MHz using keypad entry keys.
38
Press the Marker ON key in the Display Control area of the control panel.
39
Record the Marker Level reading as result B ________________________.
40
Calculate the Power Calibration Delta value. The delta value is the power meter measurement minus
the Advantest measurement.
Delta = A – B
Example: Delta = –0.70 dBm – (–1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm – 0.55 dBm = –0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In–Service Calibration.
Figure G-3: Delta Calibration Setup – R3561L to HP437B
Advantest
R3561L
RF OUT
Power
Sensor
HP437B
Short RF Cable
SENSOR
FW00803
G-6
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Power Delta Calibration – continued
Figure G-4: Delta Calibration Setup – R3561L to R3465
RF OUT
R3561L
Short RF Cable
R3465
INPUT
FW00804
HP8935 Power Delta
Calibration
Follow the procedure in Table G-3 to perform the HP8935 Power Delta
Calibration procedure.
Table G-3: HP8935 Power Delta Calibration Procedure
Step
Action
* IMPORTANT
Perform this procedure after test equipment has been allowed to warm–up and stabilize for a minimum
of 60 minutes.
Connect a short RF cable between the HP8935 Duplex Out port and the HP437B power sensor (see
Figure G-5).
Set the HP8935 signal source as follows:
– Measure mode to CDMA Gen
– Frequency to the CDMA Calibration target frequency
– CW RF Path to IQ
– Output Port to Dupl
– Data Source to Random
– Amplitude to 0 dBm
Measure and record the power value reading on the HP437B Power Meter.
Record the Power Meter reading as result A ________________________.
Turn off the source HP8935 signal output, and disconnect the HP437B.
NOTE
Leave the settings on the source HP8935 for convenience in the following steps.
Connect the short RF cable between the source HP8935 Duplex Out port and the RF–IN/OUT port
(see Figure G-6).
Ensure that the source HP8935 settings are the same as in Step 2.
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-7
Power Delta Calibration – continued
Table G-3: HP8935 Power Delta Calibration Procedure
Step
Action
Set the measuring HP8935 as follows:
– Measure mode to CDMA Anl
– Frequency to the CDMA calibration target frequency
– Input Attenuation to 0 dB
– Input port to RF–IN
– Gain to Auto
– Anl Dir to Fwd
Turn on the source HP8935 signal output.
10
Set the Chn Pwr Cal to Calibrate and select to calibrate.
11
Measure and record the channel power reading on the measuring HP8935 as result
B ________________________.
12
Turn off the source HP8935 signal output and disconnect the equipment.
13
Calculate the Power Calibration Delta value. The delta value is the power meter measurement minus
the Advantest measurement.
Delta = A – B
Example: Delta = –0.70 dBm – (–1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm – 0.55 dBm = –0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In–Service Calibration.
Figure G-5: Delta Calibration Setup – HP8935 to HP437B
Hewlett–Packard Model HP 8935
ÁÁ
ÁÁ
ÁÁ
ÁÁ
HP437B
SENSOR
Power
Sensor
DUPLEX OUT
Short RF Cable
FW00805
G-8
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Power Delta Calibration – continued
Figure G-6: Delta Calibration Setup – HP8935 to HP8935
Hewlett–Packard Model HP 8935
DUPLEX OUT
RF IN/OUT
Short RF Cable
FW00806
Agilent E4406A Power Delta
Calibration
The Agilent E4406A transmitter tester and E4432B signal generator test
equipment combination can be used for CDMA 2000 as well as
IS–95A/B operation modes. The power delta calibration is performed on
the E4406A, but the E4432B is required to generate the reference signal
used to calculate the power delta offset. After the offset value has been
calculated, add it to the TX cable loss value in the LMF.
Follow the procedure in Table G-4 to perform the Agilent E4406A
Power Delta Calibration procedure.
Table G-4: Agilent E4406A Power Delta Calibration Procedure
Step
Action
* IMPORTANT
Perform this procedure after test equipment has been allowed to warm–up and stabilize for a minimum
of 60 minutes. After it is warmed up and stabilized, calibrate the test equipment as described in the
“Test Set Calibration” section of the Optimization/Calibration chapter in the SC 4812ET
Optimization/ATP manual.
Zero the Power Meter prior to connecting the power sensor to the RF cable from the signal generator.
* IMPORTANT
For best accuracy, always re–zero the power meter before connecting the power sensor to the
component being calibrated.
Connect a short RF cable from the E4432B RF OUTPUT connector the HP437 power meter power
sensor (see Figure G-7).
Set the E4432B signal generator as follows:
– Press Preset to exit any modes for which the signal generator is configured.
– Press Frequency and enter the frequency of the channel to be calibrated on the numeric keypad.
– Using the soft keys to the right of the screen, select the frequency range to be measured; for
example MHz.
– Press Amplitude and, using the numeric keypad, set signal amplitude to 0 (zero).
– Using the soft keys, set the measurement type to dBm.
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-9
Power Delta Calibration – continued
Table G-4: Agilent E4406A Power Delta Calibration Procedure
Step
Action
On the E4432B, press RF On/Off to toggle the RF output to RF ON.
– Note that the RF On/Off status in the screen display changes.
Measure and record the value reading on the HP437 power meter as result A____________________.
On the E4432B, press RF On/Off to toggle the RF output to RF OFF.
– Note that the RF On/Off status in the screen display changes.
Disconnect the short RF cable from the HP437 power meter power sensor, and connect it to the RF
INPUT connector on the E4406A transmitter tester (see Figure G-8).
* IMPORTANT
Do not change the frequency and amplitude settings on the E4432B when performing the following
steps.
Set the E4406A as follows:
– Press Preset to exit any modes for which the transmitter tester is configured
– Press MODE and, using the soft keys to the right of the screen, select cdmaOne
– Press MEASURE and, using the soft keys, select spectrum
– Press Frequency and, using the soft keys, select Center Frequency
– Enter the frequency of the channel to be calibrated using the numeric keypad
– Using the soft keys, select the frequency range to be measured; for example, MHz
– Press Input/Output and, using the soft keys, select Input Atten
– Using the numeric keypad, set Input Atten to 0 (zero) and, using the soft keys, select dB
– Using the soft keys, select External Atten and then select Mobile
– Using the numeric keypad, set Mobile to 0 (zero) and, using the soft keys, select dB
– Using the soft keys, select Base
– Using the numeric keypad, set Base to 0 (zero) and, using the soft keys, select dB
– Press MEASURE and, using the soft keys, select Channel Power
On the E4432B signal generator, press RF On/Off to toggle the RF output to RF ON.
– Note that the RF On/Off status in the screen display changes.
10
Read the measured Channel Power from the E4406A screen display and record it as
result B____________________.
11
On the E4432B, press RF On/Off to toggle the RF output to RF OFF.
– Note that the RF On/Off status in the screen display changes.
. . . continued on next page
G-10
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Power Delta Calibration – continued
Table G-4: Agilent E4406A Power Delta Calibration Procedure
Step
Action
12
Calculate the Power Calibration Delta value. The delta value is the power meter measurement minus
the Agilent measurement.
Delta = A – B
Example: Delta = –0.70 dBm – (–1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm – 0.55 dBm = –0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In–Service Calibration.
Figure G-7: Delta Calibration Setup – Agilent E4432B to HP437
AGILENT E4432B AND E4406A
HP437B
SENSOR
RF OUTPUT
Power
Sensor
Short RF Cable
FW00858
Figure G-8: Delta Calibration Setup – Agilent E4432B to Agilent E4406A
AGILENT E4432B AND E4406A
RF OUTPUT
Short RF
Cable
RF INPUT
Jan 2002
FW00859
SC4812ET BTS Optimization/ATP — CDMA LMF
G-11
In–Service Calibration
In–Service Calibration
IMPORTANT
This feature does NOT have fault tolerance at this time.
The system has no safe–guards to stop you from doing
something that will take the BTS out of service. If
possible, perform this procedure during a maintenance
window.
Follow the procedures in this section precisely, otherwise
the entire BTS will most likely go OUT OF SERVICE.
At the CBSC, only perform operations on expansion
hardware when it is in the OOS_MANUAL state.
The operator must be trained in the LMF operation prior to
performing this procedure.
Prerequisites
 Expansion hardware has been added in the CBSC database, and the
CDF file has been generated.
 The expansion devices have been inserted into the C–CCP cage and
are in the OOS_MANUAL state at the CBSC.
 The site specific cdf (with the expansion hardware) and cal files have
been loaded onto the LMF.
 The LMF has the same code and dds files as the CBSC to download.
IMPORTANT
Do not download code or data to any cards other than those
you are working on. Downloading code or data to other
cards will take the site OUT OF SERVICE.
The code file version numbers must match the version
numbers on the other cards in the frame. If the numbers do
not match, the site may go OUT OF SERVICE.
The BTS–#.cdf, CBSC–#.cdf, and CAL files for this BTS
must have come from the CBSC.
 Test equipment has been configured per Figure G-9 or Figure G-10.
 An RFDS (or at a minimum a directional coupler), whose loss is
already known, must be in line to perform the in–service calibration.
 Test equipment has been calibrated after 1 hour warm up.
 A short RF cable and two BNC–N adapters are available to perform
Cable Calibration.
. . . continued on next page
G-12
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
In–Service Calibration – continued
 The Power Delta Calibration has been performed (see Table G-1,
Table G-2, or Table G-3).
Figure G-9: Optimization/ATP Test Setup Using RFDS
TEST SETS
Optimization/ATP SET UP
Hewlett–Packard Model HP 8935
SYNC MONITOR
EVEN SEC TICK
PULSE REFERENCE
FROM CSM BOARD
DUPLEX OUT
FREQ MONITOR
19.6608 MHZ CLOCK
REFERENCE FROM
CSM BOARD
ÁÁ
ÁÁ
ÁÁ
ÁÁ
HP–IB
TO GPIB
BOX
NOTE: IF BTS RX/TX SIGNALS ARE
DUPLEXED: BOTH THE TX AND RX TEST
CABLES CONNECT TO THE DUPLEXED
ANTENNA GROUP.
20 DB PAD
(FOR 1.7/1.9 GHZ)
10 DB PAD
RX
(FOR 800 MHZ)
TEST
CABLE
DUPLEX
OUT
ANTENNA
TX
TEST
CABLE
COMMUNICATIONS
TEST SET
EXT
REF
IN
RF IN/OUT
20 DB PAD
(FOR 1.7/1.9 GHZ)
10 DB PAD
(FOR 800 MHZ)
RFDS
DUPLEXER
DIRECTIONAL
COUPLER
RF IN/OUT
RX
TEST
CABLE
EVEN
SECOND/
SYNC IN
IEEE 488
GPIB BUS
FWD
COUPLED
PORT
GPIB
CABLE
TX
TEST
CABLE
RX ANTENNA
PORT
TX ANTENNA
PORT
BTS
FREQ
MONITOR
DIP SWITCH SETTINGS
S MODE
DATA FORMAT
BAUD RATE
ON
SYNC
MONITOR
GPIB ADRS
CSM
LAN
RS232 NULL
MODEM
CABLE
LAN
10BASET/
10BASE2
CONVERTER
UNIVERSAL TWISTED
PAIR (UTP) CABLE
(RJ45 CONNECTORS)
G MODE
RS232–GPIB
INTERFACE BOX
CDMA
LMF
INTERNAL PCMCIA
ETHERNET CARD
REF FW00759
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-13
In–Service Calibration – continued
Figure G-10: IS–95 A/B/C Optimization/ATP Test Setup Using RFDS
TEST SETS
Optimization/ATP SET UP
Advantest R3267 (Top) and R3562 (Bottom)
NOTE: IF BTS RX/TX SIGNALS ARE
DUPLEXED: BOTH THE TX AND RX TEST
CABLES CONNECT TO THE DUPLEXED
ANTENNA GROUP.
RX
TEST
CABLE
TO EXT TRIG
ON REAR OF
SPECTRUM
ANALYZER
ANTENNA
INPUT 50
OHM
20 DB PAD
(FOR 1.7/1.9 GHZ)
10 DB PAD
(FOR 800 MHZ)
MOD TIME BASE IN
(EXT REF IN)
RF OUT
50 OHM
NOTE:
FREQ MONITOR
19.6608 MHZ CLOCK
REFERENCE FROM
CSM BOARD
SIGNAL
GENERATOR
EXT
REF
IN
TX
TEST
CABLE
BNC
“T”
EXT TRIG IN
RFDS
DUPLEXER
DIRECTIONAL
COUPLER
COMMUNICATIONS
TEST SET
RF OUT 50
OHMS
EVEN
SECOND/
SYNC IN
RF
INPUT
50
OHMS
IEEE 488
GPIB BUS
FWD
COUPLED
PORT
SYNC MONITOR
EVEN SEC TICK
PULSE REFERENCE
FROM CSM BOARD
SYNTHE REF IN ON REAR OF SIGNAL GENERATOR IS
CONNECTED TO 10 MHZ OUT ON REAR OF SPECTRUM
ANALYZER
BNC
“T”
GPIB
CABLE
TX
CABLE
RX
CABLE
Agilent E4432B (Top) and E4406A (Bottom)
RX ANTENNA
PORT
TX ANTENNA
PORT
RF
OUT 50
OHMS
DIP SWITCH SETTINGS
BTS
19.6608
MHZ
CLOCK
FREQ
MONITOR
RF
INPUT 50
OHMS
SYNC
MONITOR
TO PATTERN TRIG IN
ON REAR OF SIGNAL
GENERATOR
SYNC MONITOR
EVEN SEC TICK
PULSE REFERENCE
FROM CSM BOARD
RS232 NULL
MODEM
CABLE
LAN
10BASET/
10BASE2
CONVERTER
UNIVERSAL TWISTED
PAIR (UTP) CABLE
(RJ45 CONNECTORS)
G MODE
RS232–GPIB
INTERFACE BOX
LAN
FREQ MONITOR
19.6608 MHZ CLOCK
REFERENCE FROM
CSM BOARD
BNC
“T”
G-14
TO 10 MHZ IN
(EXT REF IN)
ON REAR OF
TRANSMITTER
TESTER
ON
GPIB ADRS
CSM
TO TRIGGER IN
ON REAR OF
TRANSMITTER
TESTER
S MODE
DATA FORMAT
BAUD RATE
CDMA
LMF
INTERNAL PCMCIA
ETHERNET CARD
REF. FW00759
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
In–Service Calibration – continued
Follow the procedure in Table G-5 to perform the In–Service
Calibration.
Table G-5: In–Service Calibration
Step
Action
* IMPORTANT
Perform this procedure after test equipment has been allowed to warm–up and stabilize for a minimum
of 60 minutes.
Set up the LMF for In–Service Calibration:
– Start the LMF by double–clicking the LMF icon on the Windows desktop.
– Click Tools>Options from the menu bar at the login screen.
– Check the applicable spectrum analyzer check box and the signal generator check box on the Test
Equipment tab.
Ensure that the GPIB address is 18 for the CDMA analyzer and 1 for the signal generator.
– Uncheck any other other equipment that is selected.
– Click the Apply button.
– Select the BTS Options tab in the LMF Option window.
– Check the In–Service Calibration check box.
– Click the Apply button.
– Click the Dismiss button to close the LMF Option window.
Login to the target BTS:
– Select the target BTS icon.
– Click the Login button at the login screen.
Measure the Cable Loss using the Cable Calibration function:
– Click Util>Cable Calibration from the menu bar at the main window.
– Set the desired channel(s) and select TX and RX CABLE CAL at the cable calibration pop up
window.
– Click the OK button to perform cable calibration.
– Follow the on–screen instructions to complete the cable loss measurement.
NOTE
– The measured value is input automatically to the cable loss file.
– To view the cable loss file, click Util>Examine>Cable Loss>TX or RX.
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-15
In–Service Calibration – continued
Table G-5: In–Service Calibration
Step
Action
Add the spectrum analyzer power delta to the Cable Loss.
– To view the cable loss file, click Util>Examine>Cable Loss>TX or RX.
– Add the value computed in Table G-1, Table G-2, or Table G-3 to the TX Cable Loss.
NOTE
Be sure to include the sign of the value. The following examples are included to show the mathematics
and do not represent actual readings:
– Example: 5.65 dBm + 0.55 dBm = 6.20 dBm
– Example: 5.65 dBm + (–0.29 dBm) = 5.36 dBm
– Example: –5.65 dBm + 0.55 dBm = –5.10 dBm
– Example: –5.65 dBm + (–0.29 dBm) = –5.94 dBm
Input the Coupler Loss for the TX and RX tests:
– Click Util>Edit>Coupler Loss>TX or RX from the menu bar at the main window.
– Input the appropriate coupler loss for the target carrier(s) by referring to the information taken at
the time of BTS installation.
– Click the Save button.
– Click the Dismiss button to close the window.
– To view the coupler loss file, click Util>Examine>Coupler Loss>TX or RX.
Have the CBSC operator put the redundant BBX OOS_MANUAL.
! CAUTION
Be sure to download OOS devices only. Loading in–service devices takes them OUT OF SERVICE
and can result in dropped calls.
The code file version numbers must match the version numbers on the other cards in the frame. If the
numbers do not match, the site may go OUT OF SERVICE.
NOTE
Be sure to include the redundant BBX in steps 9, 10, and 11.
G-16
Download code and data to the target devices:
– Click Tools>Update NextLoad>CDMA to set the code version that will be downloaded.
– Select the BTS(s) you need, check the appropriate code version in the pop up window, and click
the Save button to close.
– Select the target BBX(s) on the C–CCP cage picture.
– Click Device>Download>Code/Data to start downloading code.
– Select the target BBX(s) on the C–CCP cage picture.
– Click Device>Download>Data to start downloading data.
. . . continued on next page
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
In–Service Calibration – continued
Table G-5: In–Service Calibration
Step
Action
! CAUTION
Perform the In–service Calibration procedure on OOS devices only.
Select the desired test:
– Select the target BBX(s) on the C–CCP cage picture.
– Click Tests>[desired test] from the menu bar at the main window.
– Select the target carrier and confirm the channel number in the pop up window.
– Leave the Verify BLO check box checked.
– From the Test Pattern pick list, select a test pattern.
– Click the OK button to start calibration.
– Follow the on–screen instructions, except, do not connect to the BTS antenna port, connect to the
directional coupler (fwd) port associated with the on screen prompt antenna port.
NOTE
 Selecting Pilot (default) performs tests using a pilot signal only.
 Selecting Standard performs tests using pilot, synch, paging and six traffic channels. This requires
an MCC to be selected.
 Selecting CDFPilot performs tests using the CDF value for pilot gain and IS–97 gain values for all
the other channels included in the Standard pattern setting (paging, synch, and six traffic). Using
this pattern setting requires the selection of both a BBX and at least one MCC.
 Selecting CDF performs tests using pilot, synch, paging and six traffic channels, however, the gain
for the channel elements is specified in the CDF file.
Save the result and download the BLO data to the target BBX(s):
– Click the Save Result button on the result screen.
The window closes automatically.
10
Logout from the BTS and close the LMF session:
– Click BTS>Logout to close the BTS connection.
– Close the LMF window.
11
Restore the new “bts–*.cal” file to the CBSC.
12
Enable the target device(s) from the CBSC.
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
G-17
In–Service Calibration – continued
Notes
G-18
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
Appendix H: RF Cabinet Interconnect Cables
Appendix Content
SC 4812ET Inter−Cabinet Cabeling . . . . . . . . . . . . . . . . . . . . . . . .
H'1
C−CCP Cables and Cable Connectors . . . . . . . . . . . . . . . . . . . . . .
H'4
RF Cabinet LPA Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
H'7
LPAC Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
H'11
ETIB Cables and Cable Connectors . . . . . . . . . . . . . . . . . . . . . . . . .
H'12
SPAN I/O Cable Connection Diagram . . . . . . . . . . . . . . . . . . . . . . .
H'13
DRDC/TRDC Cables and Cable Connections . . . . . . . . . . . . . . . .
H'15
MPC to DRDC Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
H'20
RFDS Cabling Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
H'22
50 Pair Punchblock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
H'25
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
Table of Contents
– continued
Notes
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
RF Cabinet Interconnect Cables
SC 4812ET Intra–Cabinet
Cabling
This appendix provides the identification and location of the cables
connecting the components which make up the SC 4812ET RF cabinet.
The number of cables and components incorporated in the RF cabinet
will vary depending on the the manner in which the cabinet is equipped.
For example, a 3 sector, 2 carrier system will require less components
and less cables than a 6 sector 2 carrier system.
Refer to Table H-1 and Figure H-1 through Figure H-19 for the cable
you wish to research.
IMPORTANT
In some cases cables with the same number are used to
connect two different signalling paths. These cables are
designated A & B and the point they connect to and from
is also designated A & B. Ensure the correct cable (A or B)
is connected to the correct designation (A or B) connector
or plug.
Table H-1 : 4812ET RF CABINET INTER–CONNECT CABLES
DRDC, Combiner, Trunking Backplane Cables
CABLE #
FROM
NOTE’s
TO
3064795A05
TX CIO
Figure H-6
Trunking BP
3064735A10
TX Trunking BP
Figure H-5
Combiner Connector Pnl
3064735A07
TX Combiner
See Figure H-1, Figure H-11,
Figure H-12, Figure H-13, and
Figure H-14
DRDC
3064735A11
TX Combiner
(See Above)
DRDC
3064735A12
TX Combiner
(See Above)
DRDC
3064795A07
TX CIO
Figure H-11
Trunking BP
3086435H01
TX Combiner QDS
PkZ Adptr
3086435H02
TX Combiner QDS
PkZ Adptr
3086435H03
TX Combiner QDS
PkZ Adptr
3086168H01
Power LPA PDA
Figure H-5
Trunk BP
C–CCP Cables
CABLE #
FROM
NOTE’s
TO
3064809A01
Power CCCP/PDA
See Figure H-1 & Figure H-5
C–CCP Backplane
3064899A04
LAN I/O A in
See Figure H-1 & Figure H-5
C–CCP LAN I/O A In
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-1
RF Cabinet Interconnect Cables
– continued
Table H-1 : 4812ET RF CABINET INTER–CONNECT CABLES
C–CCP Cables (cont)
CABLE #
FROM
NOTEs
TO
3064899A04
LAN I/O B in
See Figure H-1 & Figure H-5
C–CCP LAN I/O B In
3086033H03
GPS Surge Arrestor
See Figure H-1 & Figure H-5
C–CCPBackplane
3064899A04
LAN I/O B in
See Figure H-1 & Figure H-5
C–CCP LAN I/O B In
3064899A03
C–CCP LAN I/O A Out
See Figure H-1 & Figure H-5
LAN I/O A Out
3064899A03
C–CCP LAN I/O B Out
See Figure H-1 & Figure H-5
LAN I/O B Out
3064899A07
Sync CSM
See Figure H-1
I/O
3086000H02
Site I/O C–CCP
See Figure H-9
J2 on ETIB
3086001H02
A SPAN I/O BlkHd
See Figure H-1 & Figure H-5
C–CCP/A SPAN I/O
3086001H02
B SPAN I/O BlkHd
See Figure H-1 & Figure H-5
C–CCP/B SPAN I/O
3086086H02
Alarm C–CCP
See Figure H-1 & Figure H-9
J1 on ETIB
3086366H02
HSO/LFR
See Figure H-1 & Figure H-5
C–CCP HSO/LFR
4886044H01
LBD
See Figure H-1 & Figure H-5
C–CCP Backplane
Span I/O Board Cables
CABLE #
FROM
NOTEs
TO
3086601H01
SPAN I/O Pblock
See Figure H-1 & Figure H-10
CSU
3086601H02
SPAN CSU
See Figure H-1 & Figure H-10
A & B SPAN I/O BRD
3086001H02
SPAN CSU
See Figure H-1 & Figure H-10
A & B SPAN Connector on
C–CCP Backplane
RFDS Cables
CABLE #
FROM
NOTE’s
TO
3064238A17
RFDS/ASU–1
Figure H-16 & Figure H-17
DRDC
3064238A18
RFDS/ASU–2
Figure H-16 & Figure H-17
DRDC
3064238A19
RFDS/ASU–1
Figure H-16 & Figure H-17
DRDC
3064238A20
RFDS/ASU–2
Figure H-16 & Figure H-17
DRDC
ETIB/LPAC Cables
CABLE #
FROM
NOTE’s
TO
3064794A03
LPAC
See Figure H-8
C–CCP Bkpln
3064794A05
ETIB
See Figure H-9 & Figure H-16
RFDS
3086433H04
RGPS I/O
See Figure H-1 & Figure H-9
ETIB (15 position)
3086169H01
Power, Heat Exchanger,
PDA
See Figure H-1 & Figure H-9
ETIB, OPT, HX, EBA
3086500H01
Alm/Ctrl ETIB
See Figure H-1 & Figure H-9
HX/LPA
. . . continued on next page
H-2
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
RF Cabinet Interconnect Cables – continued
Table H-1 : 4812ET RF CABINET INTER–CONNECT CABLES
3086505H01
DC Cable (DC Power Dist) See Figure H-1 & Figure H-19
EBA Blower Assembly
3086566H01
LPAC
See Figure H-1 & Figure H-8
1 Cable to each LPA Bk Pln
3086569H01
Door Intrusion Alarm
See Figure H-5 & Figure H-19
Door Switch
3086655H02
LPAC
See Figure H-8, Figure H-5 &
Figure H-19
ETIB
Figure H-1: 4812ET RF Cabinet Internal FRU Locations
(See Figure H-8,
Figure H-9), and
Figure H-10)
EBA
RFDS
ETIB
LPAC
SPAN I/O
C–CCP Shelf
(See Figure H-2
and Figure H-5)
(See Figure H-11,
Figure H-12,
Figure H-13, and
Figure H-14)
OPTIONAL AREA
(See Figure H-10)
Combiner
Cage
DRDC
LPA’s
CSU
Modem
DC
Power
Dist.
Punch
Block
(back)
LAN
OUT
IN
DRDC
19 MHz
2 Sec
LAN I/O
Span I/O
to C–CCP
Jan 2002
SYS
Sync
Alarm to
ETIB
To
Span I/O (See Figure H-11) LPA Trunking
Backplane
(See Figure H-5
(See Figure H-4,
and Figure H-10)
Figure H-5, Figure H-6
and Figure H-8)
SC4812ET BTS Optimization/ATP — CDMA LMF
FW00698
H-3
RF Cabinet Interconnect Cables
– continued
C–CCP Cables and Cable
Connectors
The C-CCP Shelf assembly consists of the C-CCP Shelf and the attached
backplane with cables and connectors (see Figure H-2 and Figure H-3).
The C–CCP shelf contains all of the CDMA unique functions within the
SC 4812ET RF frame. The C–CCP shelf contains the following
components:
Broadband Transceiver (BBX) cards
Multi–Channel CDMA (MCC) cards
Combiner Input/Output (CIO) card
Power Supply cards
Group Line Interface (GLI2) cards
Alarm Monitor Reporting (AMR) cards
Clock Synchronization Modules (CSM)
High Stability Oscillator/Low frequency Receiver (HSO/LFR)
Multicoupler Preselector Cards (MPC)
CDMA Clock Distribution (CCD) card
Integrated Frame Modem (IFM) card
Switch card
C–CCP Fan Modules
H-4
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
RF Cabinet Interconnect Cables – continued
Figure H-2: C-CCP Shelf Cable Numbers and Connectors
(To J1
connector on
the ETIB)
Cable #
3086086H02
(To SPAN A I/O
connector on
the Bulkhead)
Cable #
3086001H02
ALARMS
(To J2
connector on
the ETIB)
Cable #
3086000H02
(To SPAN B I/O
connector on the
Bulkhead)
Cable #
3086001H02
SITE I/O
SPAN B
SPAN A
Cable #
3086366H02
LAN I/O A Cable #
3064899A04
LAN I/O B Cable #
3064899A04
MPC/EMPC–1
BBX2–6
BBX2–13
BBX2–5
BBX2–4
BBX2–3
BBX2–2
BBX2–1
MCC24–6
MCC24–5
MCC24–4
MCC24–3
MCC24–2
GLI2–1
MCC24–1
AMR–1
PS–3
PS–2
PS–1
19 mm Filter Panel
HSO/LFR
MPC/EMPC–2
Switch Card
BBX2–12
BBX2–11
BBX2–10
BBX2–9
BBX2–8
BBX2–7
MCC24–12
MCC24–11
MCC24–10
MCC24–9
MCC24–8
MCC24–7
GLI2–2
AMR–2
FILLER
CCD–1
CCD–2
CSM–2
CSM–1
HSO/LFR
CIO
To LAN I/O
connectors on
the Bulkhead
LPAC
C–CCP Shelf
FW00699
Cable #
3064794A03
(To the C–CCP
connector on the
LPAC Module)
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-5
RF Cabinet Interconnect Cables
– continued
Figure H-3: C–CCP Backplane
(To J1
connector on
the ETIB)
Cable #
3086086H02
(To SPAN A I/O
connector on
the Bulkhead)
Cable #
3086001H02
(To J2
connector on
the ETIB)
Cable #
3086000H02
(To SPAN B I/O
connector on the
Bulkhead)
Cable #
3086001H02
SYSTEM
LED
Cable #
4886044H01
HSO/LFR
LAN IN A
LAN IN B
CCCP Power
3064809A01
Cable #
3086366H02
Cable #
3064899A04
Cable #
3064899A04
To LAN I/O
connectors on
the Bulkhead
Cable #
3064794A03
LPAC
(To the C–CCP
connector on the
LPAC Module)
Cable #
LAN OUT A 3064899A03
LAN OUT B Cable #
3064899A03
GPS
Cable #
3086033H03
FW00700
H-6
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
RF Cabinet Interconnect Cables – continued
RF Cabinet LPA Cables
There can be a maximum of 16 LPAs in an RF cabinet. The connections
shown are for one LPA backplane which controls four LPAs. The
remaining LPAs are connected in the same manner. Refer to Figure H-4,
through Figure H-8 for the cables connected to the LPAs in the 4812ET
RF cabinet.
Figure H-4: LPAs for the SC 4812ET
EBA
ETIB
RFDS
5 RU RACK
SPACE
SC 4812ET BTS RF Cabinet
Note:
LPA Component door
not shown for clarity
Unpopulated
LPA Shelf Cover
External Blower
Assembly (EBA)
LPA Module
(4–Each Cage)
FW00173
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-7
RF Cabinet Interconnect Cables
– continued
Figure H-5: BTS Combiner to LPA Backplane Cables
LPA
Backplane
EBA
RFDS
LPA–1
ETIB
TX
OUT1
5 RU RACK SPACE
Cable
3064735A10
(3 each)
TX
IN 1
TX
OUT2
LPA–2
TX
IN2
TX
IN 3
LPA–3
TX
OUT3
SC 4812ET BTS
RF Cabinet
LPA–4
4B
4A
1B
1A
S1
C1
S2
S3
S1
C2
LPA–1
S2
5B
5A
2B
2A
S3
S1
C3
S2
LPA–2
S3
6B
6A
3B
3A
S1
C4
S2
S3
FROM APPROPRIATE
LPA
LPA 1, LPA 2,
LPA 3, LPA 4
LPA–3
LPA–4
BACK
H-8
SC4812ET BTS Optimization/ATP — CDMA LMF
FW00708–REF
Jan 2002
RF Cabinet Interconnect Cables – continued
Figure H-6: Combiner to LPA Backplane/LPA Backplane To CIO Board Cables
LPA
Backplane 1
EBA
RFDS
LPA–1
ETIB
TX
OUT1
5 RU RACK SPACE
TX
IN 1
TX
OUT2
Cable 3064735A10
(3 each)
LPA–2
RED
TX
IN2
ORANGE
YELLOW
TX
IN 3
LPA–3
TX
OUT3
SC 4812ET BTS
RF Cabinet
LPA–4
4B
4A
1B
1A
S1
C1
S2
TO J15 on CIO Board
(See Figure H-7)
Cable 3064795A05
S3
S1
C2
LPA–1
S2
5B
5A
2B
2A
S3
S1
C3
TX
OUT1
S2
TX
IN 1
TX
OUT2
S3
6B
6A
3B
3A
S1
C4
LPA–2
GREEN
VIOLET
TX
IN2
S2
S3
BLUE
TX
IN 3
LPA–3
TX
OUT3
LPA–4
FW00711
LPA
Backplane 2
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-9
RF Cabinet Interconnect Cables
– continued
Figure H-7: Components Located on CIO Card
SC 4812ET RF Cabinet
ETIB
EBA
RFDS
5 RU RACK
SPACE
RX EXP A
J12
RX EXP B
J13
TX BTS 1–6
J15
BTS 7–12
M/F 1–6
J14
TX
FW00237
H-10
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
RF Cabinet Interconnect Cables – continued
LPAC Cabling
The LPAC module provides the communication interface from the ETIB
and C–CCP to the LPA through the trunking backplane. The LPAC
interface board is contained in a protective housing which is mounted on
the RF cabinet frame behind the ETIB module. See Figure H-3,
Figure H-8 and Figure H-9 for connecting cables and connector
locations.
The LPAC is located internally to the frame as shown in Figure H-1.
Figure H-8: LPAC Interface Board Connectors and Attaching Cable Numbers
LPAC INTERFACE
BOARD
FRONT
LPA–1
ALARM RIBBON
CABLE TO ETIB
3086655H02
RIBBON CABLE TO
C–CCP BACKPLANE
3064794A03
TX
OUT1
LPA–2
TX IN
TX
OUT2
TX
IN2
TX IN 3
LPA 1A, 1B 1C, 1D
RIBBON CABLE
3086566H01
LPA–3
TX
OUT3
LPA 2A, 2B 2C, 2D
RIBBON CABLE
3086566H01
LPA–4
LPA 3A, 3B 3C, 3D
RIBBON CABLE
3086566H01
LPA 4A, 4B 4C, 4D
RIBBON CABLE
3086566H01
LPA BACKPLANE
1, 2, 3, & 4
FW00702
Cable # 3086566H01
(4 Connections each Side)
NOTE: The LPAC is Located
Behind the ETIB Module
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-11
RF Cabinet Interconnect Cables
– continued
ETIB Cables and Cable
Connectors
The ETIB module (see Figure H-9) provides the interface for the LPA’s
through the LPAC, punchblock, heat exchanger and alarms to the
C–CCP backplane. The ETIB interface board is contained in a protective
housing which is mounted on the RF cabinet frame.
The ETIB is located internally to the frame as shown in Figure H-1.
Figure H-9: ETIB I/O Connectors and Attaching Cable Numbers
Cable #
3064794A05
(See Figure H-16)
Cable #
3086168H01
J6
DC POWER
Cable #
3086655H02
(See Figure H-8)
P7
RFDS
P2
LPAC
P9 ALARMS IN
(From Bulkhead )
Cable #
3064534A08
(See Figure H-1)
J1 To ALARMS OUT
(C–CCP Backplane)
(Reserved)
SITE I/O (C–CCP Backplane)
P8 OPTIONS
RECEPTACLE
DOOR INTRUSION ALARM
Cable #
3086569h01
Cable #
3086000H02
See Figure 2-5
and Figure H-3
J2
J5
LFR/HSO
Cable #
3086086H02
See Figure 2-5
and Figure H-3
J4
Cable #
3086433H04
(See Figure H-1)
Cable #
3086500h01
HEAT EXCH
J3
RGD/RGPS
FW00701
Cable #
3086366H02
See Figure 2-5
and Figure H-3
H-12
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
RF Cabinet Interconnect Cables – continued
SPAN I/O Cable Connection
Diagram
The SPAN I/O card provides the frame interface and secondary surge
protection for the T1 lines. There are two span cards in an RF cabinet.
SPAN I/O A supports spans A, C, and E. SPAN I/O B supports span B,
D, and F. See Figure H-10 for SPAN cables and cable connections.
The SPAN I/O is located internally to the frame as shown in Figure H-1.
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-13
RF Cabinet Interconnect Cables
– continued
Figure H-10: SPAN I/O Cables and Connectors
20 Pair
RGD
Punchblock Board
(RGPS)
SPAN I/O (A & B)
Interface Module
(Located Behind
the LPAC Module,
See Figure H-1)
RGD/RGPS
50 Pair
Punch
Block
1A 2A 3A 1B 2B 3B
4A 5A 6A 4B 5B 6B
Micro–
wave
(Alarms/
Spans)
RF Expansion Ports
Power Input
+27V
RF
GPS
LAN
1A 2A 3A 1B 2B 3B
IN OUT
Remote
ASU
Power Input
27V Ret
4A 5A 6A 4B 5B 6B
19 MHz
Spans
Modem
Alams
Antenna’s
2 Sec
GND
Lugs
4812ET Rear Connector Panel
SPAN I/O WIRING DIAGRAM
SPAN I/O A
SPAN I/O B
C–CCP
Backplane
3086001H02
Bulkhead
SPAN I/O A
Bulkhead
SPAN I/O
Connector
3086601H01
CSU
3086601H02
SPAN I/O B
3086001H02
To/From
GLI
To/From
Network
DTE
To/From
GLI
To/From
Network
DATA PORT
DCE
SLOT 2
T1
DDS
SLOT 1
T1 TERMINAL
NETWORK
DATA PORT
T1
DDS
T1 TERMINAL
NETWORK
CONTROL
PORT
GROUP
ADDRESS
CSU Back View
H-14
SC4812ET BTS Optimization/ATP — CDMA LMF
SHELF
ADDRESS
FW00703
Jan 2002
RF Cabinet Interconnect Cables – continued
DRDC/TRDC Cables and Cable
Connections
The DRDC is a Duplexer, RX Filter, and Directional Coupler which
provides the RF interface at the rear of the cabinet. The connections are
the antenna connection (outside rear), transmit into the DRDC TX filter.
Receive out of DRDC (RX filter), and Directional coupler.
The TRDC is a TX filter/RX filter/Directional Coupler that is the same
as the DRDC except the TRDC has two antenna outputs (TX only and
RX only) The TRDC is not available in the 1.9 GHz band.
See Figure H-11, Figure H-12, Figure H-13, and Figure H-14 for the
cable diagram that fits the configuration of your BTS site.
. . . continued on next page
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-15
RF Cabinet Interconnect Cables
– continued
Figure H-11: 3 Sector, 2 Carrier BTS Combiner DRDC/TRDC Cable Connection
Dual Bandpass Filters
3 Sector, 2 Carrier Maximum
1B
1A
2B
2A
1–1A 3064735A11 3 SEC
2–2A 3064735A07 3 SEC
3–3A 3064735A07 3 SEC
Add the following
cables for 2nd Carrier
1–1B 3064735A11 3 SEC
2–2B 3064735A07 3 SEC
3–3B 3064735A07 3 SEC
3B
3A
COMBINER CAGE
3B
2B
1B
3A
2A
1A
FW00704
DRDCs
H-16
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002
RF Cabinet Interconnect Cables – continued
Figure H-12: BTS 2 to 1, 3 or 6 Sector Combiner DRDC/TRDC Cable Connection
2 to 1 Combiners
2 Carrier – 6 Sector
4–4A 3064735A12 6 SEC
5–5A 3064735A11 6 SEC
6–6A 3064735A07 6 SEC
* FOR 3 SECTOR–4 CARRIER
Connect Combiner 4 to 1B
Combiner 5 to 2B
Combiner 6 to 3B
1–1A 3064735A11 3/6 SEC
2–2A 3064735A07 3/6 SEC
3–3A 3064735A07 3/6 SEC
COMBINER CAGE
3B
2B
1B
3A
2A
1A
6B
5B
4B
6A
5A
4A
FW00705
DRDCs
Jan 2002
SC4812ET BTS Optimization/ATP — CDMA LMF
H-17
RF Cabinet Interconnect Cables
– continued
Figure H-13: BTS Combiner DRDC/TRDC Cable Connection
4 to 1 Combiners
3 Sector
1A
1–1A 3064735A11 3 SEC
2–2A 3064735A07 3 SEC
3–3A 3064735A07 3 SEC
2A
3A
COMBINER CAGE
3B
2B
1B
3A
2A
1A
6B
5B
4B
6A
5A
4A
FW00706
DRDCs
H-18
SC4812ET BTS Optimization/ATP — CDMA LMF
Jan 2002

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