1Overview

The Model 12100 Series is a family of compact, USB-powered RF average power sensors. They plug into a host computer and run with no external meter, no cable harness, and no manual zeroing or pre-use calibration. Setup takes minutes, so measurements start almost immediately whether the work happens on the bench or in the field.

Each sensor measures true-RMS average power across any modulation format, including 802.11ac, GSM, CDMA2000, IS-95, TDMA, OFDM, multi-tone, QAM, and CW. Coverage spans 9 kHz to 67 GHz with a dynamic range of -60 to +26 dBm, so the family reads both subtle and high-level signals with traceable accuracy. Patented thermal-stability technology holds readings steady over the full operating range without drift, and deep internal memory with internal or external triggering supports long-term logging.

Model 12100 Series sensor, front flat view — Model 12100 Series sensor, front view. USB-powered, no external meter required.

2Model Selection

The family covers eight frequency tiers. Most tiers ship in two builds: the S suffix is the Standard build starting at 1 MHz, the L suffix is the Extended build starting at 9 kHz. The 12154L and 12167L ship as Extended (L) only. The standard connector is set by the model.

Model	Frequency range	Standard connector
12108L	9 kHz to 8 GHz	Type-N male
12108S	1 MHz to 8 GHz	Type-N male
12118L	9 kHz to 18 GHz	Type-N male
12118S	1 MHz to 18 GHz	Type-N male
12126L	9 kHz to 26.5 GHz	3.5 mm male
12126S	1 MHz to 26.5 GHz	3.5 mm male
12140L	9 kHz to 40 GHz	2.92 mm male
12140S	1 MHz to 40 GHz	2.92 mm male
12144L	9 kHz to 44 GHz	2.4 mm male
12144S	1 MHz to 44 GHz	2.4 mm male
12150L	9 kHz to 50 GHz	2.4 mm male
12150S	1 MHz to 50 GHz	2.4 mm male
12154L	9 kHz to 54 GHz	2.4 mm male
12167L	9 kHz to 67 GHz	1.85 mm male

S = Standard (from 1 MHz). L = Extended (from 9 kHz). The dynamic range is -60 to +26 dBm across the family. The 12167L carries a lower continuous-average ceiling and reduced peak limits; see Specifications.

Model 12167L 67 GHz RF power sensor — Model 12167L, the 67 GHz top of the family, with a 1.85 mm male connector.

3Key Features

True-RMS responding and modulation independent across all formats.
USB plug-and-play operation: no zeroing, no pre-use calibration, no external meter.
9 kHz to 67 GHz coverage with a -60 to +26 dBm dynamic range.
Patented thermal stability holds measurements steady with no drift over the full range.
Full dynamic range processed with each sample.
Interfaces: USBTMC and USB HID, with optional SPI or I2C TTL for direct and embedded control.
IEEE 488.2 SCPI command set, command-compatible with the Agilent U2000 family.
Extensive internal memory for trace capture and long-term logging.
Real-time clock with backup, plus optional unattended autonomous operation (UOP).
Security options: MIL (write-lock) and SEC (secure erase).

4Specifications

Parameter	Specification
Frequency range	9 kHz to 67 GHz (model dependent; S builds from 1 MHz, L builds from 9 kHz)
Input power	-60 to +26 dBm
Continuous average	+26 dBm (400 mW); 12167L: +18 dBm (63 mW)
Continuous average damage level	+29 dBm (800 mW); 12167L: +23 dBm (200 mW)
Peak power	+23 dBm (200 mW); 12167L: +26 dBm (400 mW). Damage level: 36 dBm (4 W)
Energy per pulse	20 W-us; 12167L: 5 W-us. Damage level: 40 W-us; 12167L: 10 W-µs
Maximum DC input	Low: 10 VDC (on the RF input); Standard: 16 VDC (on the RF input)
Typical VSWR	12108L/12108S/12118L: < 1.1:1; 12118S: < 1.10:1; 12126L: < 1.14:1; 12126S: < 1.28:1; 12140L/12144L/12144S: < 1.28:1 @ 40 GHz; 12150L/12150S: < 1.39; 12154L: <1.28:1 @ 44 GHz, <1.94:1 @ 54 GHz; 12167L: <1.43:1 @ 67 GHz
Typical total RSS error	12108L: 1.31%; 12108S: 1.09%; 12118L/12118S: 1.3% @ 15 GHz; 12126L: 1.71% @ 18 GHz; 12126S/12140L/12140S: 2.87% @ 30 GHz; 12144L/12144S: 2.77% @ 44 GHz; 12150L/12150S: 2.77% @ 50 GHz; 12154L: 2.77% @ 44 GHz, 3.73% @ 54 GHz; 12167L: 2.77%
Standard connector	12108L/12108S/12118L/12118S: Type-N male; 12126L/12126S: 3.5 mm male; 12140L/12140S: 2.92 mm male; 12144L/12144S/12150L/12150S/12154L: 2.4 mm male; 12167L: 1.85 mm male
Dimensions	1.51 x 1.51 x 3.95 in (verify against released outline drawing)
Recommended calibration cycle	1 year

Note 1: Pulse repetition must respect average power over any one pulse duty cycle, regardless of varying duty cycle.

Verification notes. Source rows preserve the published values and their quirks; one line reads "1210S: < 1.28:1" in the source and is omitted here as an apparent typo (verify). Dimensions are read from the outline drawing (tolerance +/- 0.063 in); confirm against the released mechanical drawing before fixturing. VSWR and RSS error vary by model and band, so confirm the exact figure for the chosen model before quoting. The 12167L and 12154L specifications are the most recently added (datasheet v2.4); verify before ordering.

5VSWR Specifications

Model 12100 Series VSWR specification maximum versus typical production test data — Match (VSWR) specification maximum (orange line) over typical production test data, 0 to 50 GHz.

Match is specified per connector type and frequency band. VSWR limits below are stated as the maximum value over each band.

12100L Series (Type-N male)

Model	Band	VSWR (max)
All 12100L Series	9 kHz to 15 kHz	1.45
	15 kHz to 40 kHz	1.25
	40 kHz to 2 GHz	1.13
	2 GHz to 8 GHz	1.18
12118L and above	8 GHz to 15 GHz	1.23
	15 GHz to 18 GHz	1.29
12126L and above (3.5 mm)	8 GHz to 18 GHz	1.23
	18 GHz to 24.5 GHz	1.30
	24.5 GHz to 26.5 GHz	1.35
12140L and above (2.92 mm)	26.5 GHz to 30 GHz	1.49
	30 GHz to 40 GHz	1.58
12144L (2.4 mm)	40 GHz to 44 GHz ¹	1.73
12150L	44 GHz to 50 GHz	1.39
12154L	50 GHz to 54 GHz	2.20

12100S Series (Type-N male)

Model	Band	VSWR (max)
12108S and above	1 MHz to 2 GHz	1.13
	2 GHz to 8 GHz	1.18
12118S	8 GHz to 15 GHz	1.23
	15 GHz to 18 GHz	1.29
12126S (3.5 mm)	8 GHz to 18 GHz	1.23
	18 GHz to 24.5 GHz	1.30
	24.5 GHz to 26.5 GHz	1.35
12140S and above (2.92 mm)	15 GHz to 20 GHz	1.29
	20 GHz to 26.5 GHz	1.35
	26.5 GHz to 30 GHz	1.49
	30 GHz to 40 GHz	1.58
12144S (2.4 mm)	40 GHz to 44 GHz	1.73
12150S	44 GHz to 50 GHz	1.39
12167L	50 GHz to 67 GHz	1.43

Note 1: Band annotation carried from the source table.

6Calibration Factor & Linearity

Calibration Factor Uncertainty is stated with coverage factor K=2. Values are grouped by connector type and model range.

12100L Series

Models / connector	Band	Cal Factor Unc (K=2)
12108L – 12140L (Type-N)	9 kHz to 15 kHz	2.88%
	40 kHz to 2 GHz	2.23%
	2 GHz to 8 GHz	2.45%
12118L – 12140L (Type-N)	10 GHz to 18 GHz	2.85%
12126L / 12140L (3.55 mm)	18 GHz to 26.5 GHz	2.9%
12140L (2.9 mm)	26.5 GHz to 30 GHz	3.42%
	30 GHz to 40 GHz	3.9%
12144L / 12150L (2.4 mm)	9 kHz to 40 kHz	2.88%
	40 kHz to 2 GHz	2.23%
	2 GHz to 8 GHz	2.45%
	10 GHz to 18 GHz	2.85%
	18 GHz to 26.5 GHz	2.9%
	26.5 GHz to 30 GHz	2.65%
	30 GHz to 40 GHz	2.82%
	40 GHz to 44 GHz	2.94%
	44 GHz to 50 GHz	3.42%
	50 GHz to 54 GHz	5.81%

Linearity Uncertainty (12100L Series)

Input level	Linearity Unc
+10 dBm to +20 dBm	3.0%
-10 dBm to +10 dBm	2.0%
-20 dBm to -10 dBm	3.5%
-60 dBm to -20 dBm	2.0%

12100S Series

Models / connector	Band	Cal Factor Unc (K=2)
12108S / 12118S (Type-N)	5 MHz to 2 GHz	1.79%
	2 GHz to 8 GHz	1.53%
12118S (Type-N)	2 GHz to 10 GHz	1.53%
	10 GHz to 18 GHz	1.78%
12126S – 12144S (3.5 mm) ¹	5 MHz to 2 GHz	2.23%
	2 GHz to 10 GHz	2.45%
	10 GHz to 18 GHz	2.85%
	18 GHz to 26.5 GHz	2.9%
12140S (2.92 mm) ¹	26.5 GHz to 30 GHz	3.42%
	30 GHz to 40 GHz	3.9%
12144S / 12150S (2.4 mm) ¹	26.5 GHz to 30 GHz	2.65%
	30 GHz to 40 GHz	2.82%
	40 GHz to 44 GHz	2.94%

Linearity Uncertainty (12100S Series)

Input level	Linearity Unc
+10 dBm to +20 dBm	3.0%
-10 dBm to +10 dBm	2.0%
-20 dBm to -10 dBm	3.5%
-60 dBm to -20 dBm	2.0%

Cal Factor and Linearity notes (12100S Series): 1. For Normal Mode add 1%. 2. For Normal Mode add 1.5%.

12167L (1.85 mm male)

Band	Cal Factor Unc (K=2)
9 kHz to 40 kHz	2.88%
40 kHz to 2 GHz	2.23%
2 GHz to 10 GHz	2.45%
10 GHz to 18 GHz	2.85%
18 GHz to 26.5 GHz	2.9%
26.5 GHz to 30 GHz	2.65%
30 GHz to 40 GHz	2.82%
40 GHz to 44 GHz	2.94%
44 GHz to 50 GHz	3.42%
50 GHz to 67 GHz	5.81%

7Noise & Zero Offset

Noise Specifications

Mode / band	Specification	Typical
Average Mode: -40 dBm to +26 dBm ³	0.35%	0.025% to 0.15% ⁴
Average Mode: -60 dBm to -40 dBm	0.5 nW ⁵	0.2 nW ⁶
Normal Mode 2 ms Gate: +10 dBm to +26 dBm	0.35%	0.15%
Normal Mode 2 ms Gate: 0 dBm to +10 dBm	0.5%	0.25%
Normal Mode 2 ms Gate: -8 dBm to 0 dBm	1.0%	0.5%
Normal Mode 2 ms Gate: -25 dBm to -8 dBm	1.5%	0.75%
Normal Mode 2 ms Gate: -38 dBm to -25 dBm	28 nW	20 nW
Normal Mode 2 ms Gate: -45 dBm to -38 dBm	95 nW	50 nW
Normal Mode 1 us Gate: +10 dBm to +26 dBm	0.45%	0.18%
Normal Mode 1 us Gate: 0 dBm to +10 dBm	3%	2%
Normal Mode 1 us Gate: -38 dBm to 0 dBm	8.5%	1% to 4%

Noise notes (12100L Series): 3. Noise is two times the standard deviation of 100 measurement points. 4. Number of averages for each measurement rate: Normal 16; Double 32; Super 384. 5. For Normal measurement rate, when averages above 16 and power is above -40 dBm noise error is insignificant. 6. Varies with power level. 7. Noise is determined by multiplying the value by 4/sqrt(Normal measurement rate averages). Example (Specification): for 1024 averages noise is less than 0.5nW*(4/sqrt(1024)) = 0.063 nW; for 128 averages, 0.5nW*(4/sqrt(128)) = 0.18 nW. 8. Same formula for typical: for 1024 averages 0.2nW*(4/sqrt(1024)) = 0.025 nW; for 128 averages 0.2nW*(4/sqrt(128)) = 0.071 nW.

Zero Offset Specifications

Model	Parameter	Specification
All 12100 Series	Zero Offset (Average Mode)	{[(1.0 nW @ 25°C) + \|ΔT\| x (0.075 nW/°C)] ± 0.01 nW /month}
12100S Series	Zero Offset (Normal Mode)	50 nW +/- 1 nW/month

Zero Offset notes (all 12100 Series): 1. Use this formula to determine Zero Offset uncertainty (%): Z = (Zero Offset Power / Measured Power) x 100. 2. Linearity and Zero Offset are measured as a combined specification, as BNC sensors require no meter zeroing or reference calibration before use.

8Temperature & Thermal Stability

12100 Series sensor measured power over temperature at 1 GHz — 12100 Series measured power over temperature at 1 GHz. Readings hold within hundredths of a dB from 0°C to 50°C.

Temperature Uncertainty (Average Mode)

Range (all 12100 Series)	Specification	Typical
40°C to 55°C	2.5%	0.5%
30°C to 40°C	0.5%	0%
20°C to 30°C	0%	0%
10°C to 20°C	0.5%	0%
0°C to 10°C	2.5%	0.5%

Temperature Uncertainty (Normal Mode): (verify; not specified in source).

Thermal Stability

BNC thermal-stability technology is built into the Model 12100 Series. Measurements remain stable over the entire operating temperature range with no user intervention, zeroing, or calibration. This patented process also defines the zero-power conditions and eliminates zeroing requirements. Measurements are not interrupted for zeroing or calibration.

9PowerEye Software

BNC PowerEye Precision Power Meter software interface — BNC PowerEye Precision Power Meter software, included with every 12100 Series sensor.

The Model 12100L Series sensors use BNC PowerEye Precision Power Meter software. The software allows users to make a wide variety of measurements from basic average power to complex triggered measurements. Refer to the BNC PowerEye user's manual for further information. In addition to PowerEye, BNC provides an interactive IO utility with source code, a Persona utility, plus a variety of programmatic code and support.

For use with any 12100 Series sensor.
Two sensor calculation windows with calculations for Gain, Loss, VSWR, Reflection Coefficient, Mismatch Loss, and Return Loss.
USB threading increases performance when using multiple sensors.
Triggering control including setting Level, Delay, Slope, Hysteresis, Impedance, and more.
Tabular logging with file storage and retrieval.
Controls Option UOP (Unattended Operation) and Option 001 (Analog Recorder Out).
Recorder Out (analog out) control for scaling, etc.
Offset controls including simple offset and frequency-dependent offset tables.

Average Detector Mode Measurement Rate (MRAT), all 12100 Series

Setting	Normal	Double	Fast	Super
Samples per measurement	384	192	32	16
Number of averages per measurement	1 to 1024	1 to 1024	1	1 to 4069
Measurement time per average	38.4 ms	19.2 ms	3.2 ms	1.6 ms

Normal Detector Mode Video Bandwidth, 12100 Series

Parameter	Minimum	Typical
Auto Range	8 kHz	10 kHz
Averages per Range = 1 (-15 dBm typ. to 26 dBm)	40 kHz	60 kHz
Range = 0 (-45 dBm to -12 dBm typ.)	8 kHz	10 kHz

Settling time versus average count and MRAT for the 12100 Series — Settling time in seconds for Average Detector Mode (30 dB decreasing power step) versus average count and MRAT.

10Interfaces & Remote Control

Interface Connectivity

The 12100 Series sensors support both USBTMC and USB HID. Direct control is also possible using optional SPI and I2C interface ports. These functions are optimized for programmatic control as well as unattended and logged power measurements. The sensors can be set up, controlled, and read from any of the connectivity options.

Interface	Detail
USBTMC	USB488 compliant
USB HID	USB Human Interface Device Class compliant
SPI / I2C (Option SPI)	Cable and connector included with Option SPI. Cable may also power the sensor for unattended applications.

Remote Programming

The sensor is designed for full programmatic control in ATE systems and other applications requiring remote programming. 12100 Series sensors use SCPI commands; all three connectivity options use the SCPI command set.

Parameter	Specification
Supporting ports	USBTMC, USB HID, SPI/I2C
Command set	SCPI (Standard Commands for Programmable Instruments)
Compatibility	Compatible with systems using USBTMC programmatic control, NI and Agilent Visa IO libraries, Agilent U2000, and others using the SCPI command set.*

*Agilent is a trademark of Agilent Technologies Inc; NI is a trademark of National Instruments, Inc.

Analog Recorder Output (Option 001)

Recorder Output is a filtered analog output for various purposes. It provides an accurate scaled voltage representing the power level of the signal. The output is linear (not log dB) and can be scaled. When enabled, Recorder Out uses the same SMB port used by Trigger Out, making the port unavailable for triggering use. Trigger In is not affected.

Parameter	Specification
Output filter bandwidth	Average Detector mode: 0.001 Hz to 32 Hz (settable); Normal Detector mode: 0.001 Hz to 81 Hz (settable)
Output range	0 to 1 Volt into 1,000 Ohms. Note: potential of 2.5 V when set as Recorder Out; or 5 V when used as Trigger Output
Output impedance	1 k Ohms
Resolution	+/- 25 µV
DC Offset	0 to 5 mV
Scale	Linear
Connector	SMB Male (shared with Trigger Out and Wideband Video Out)

11Triggering

The 12100 Series trigger functions, including slope, level, trigger delay, hold off, and rearm delay, can be set. External trigger input is available for gated measurements, synchronizing multiple sensors, or other purposes. Trigger Input and output use SMB Male connectors, which may be shared with other options.

General

Parameter	Specification
Trigger source	Internal (signal level), Immediate, External / Internal triggering not supported (12144L)
Trigger Delay range	+/- 10 Seconds
Auto trigger delay	Varies based on resolution setting (Default 45 ms). Average Mode: 11 ms to 61 ms / Trace Mode: 44 us to 244 us (12108S)
Resolution	1 us
Trigger Out pulse width	500 ns
Trigger Out level	Maximum ≈ VUSB ≈ 5.5 VDC (typical). Typical high level 4.0 V with 600 ohm load (with VUSB=5.0 V). Max low level 0.8 V. Minimum load resistance 200 ohms.

Internal Triggering

Parameter	Specification
Level	Settable to approximately -50 dBm to 20 dBm
Level resolution	0.1 dB
Slope	Positive or Negative
Hysteresis	Settable to 0 dB to 3 dB

External Triggering

Parameter	Specification
Trigger Input	Min high level 2.0 Volts, Max low level 0.8 Volts
Input Load	Selectable 100 kΩ or 50 Ω
Timing requirements	Minimum pulse width 25 ns (on), 25 ns (off); Repetition 50 ns (min)
Absolute input limits	+5.5 Volts maximum; -0.5 Volts minimum

12Memory, Logging & Real Time Clock

Store, Recall and Logging Memory

The 12100 Series contains volatile and non-volatile memory. Store and recall functions for the sensor's state and register functions such as Frequency, Averages, and Analog Recorder Out settings have a lifetime of 1 million write and erase cycles. When Option UOP is present, the sensor contains separate non-volatile flash memory designed for long-term logging of measurements.

Note: If Option MIL (security) is ordered, non-volatile flash memory is not accessible. This includes all state and register functions such as Frequency, Averages, Analog Recorder Out, etc.

Parameter	Specification
Non-volatile NAND flash	50 Million measurements
Maximum storage rate	1000 measurements per second

Unattended Operation (UOP)

Unattended operation makes autonomous measurements. Once set up using a computer, the sensor only requires power to function. Measurements are stored in non-volatile memory and time stamped using the internal real time clock. The option allows the use of trigger functions. Recorder output can be enabled while in unattended operation, allowing calibrated analog output functions with no computer or power meter connected. Power can be applied using a USB power-only cable or, if Option SPI has been purchased, its ribbon cable. Measurement storage using UOP is not possible when Option MIL is installed.

Real Time Clock

If Option UOP is present, the 12100 Series contains a real time clock used to timestamp logged measurements. When the sensor is powered on, the high-accuracy time base is used to increase the accuracy of the real time clock.

Parameter	Specification
Time Accuracy	Typical: un-powered 20 ppm at 25°C; under power and stable, 2 ppm (disciplined by high-accuracy time-base). Consult the factory for further information.
Functionality	Provides timestamp data for measurements stored in memory. When used with Option UOC (unattended operation), can deactivate low power mode, trigger measurements, and activate low power mode.
Backup	Super cap. When fully charged, provides 1 day (typical) RTC operation with no power applied to the sensor. Minimum charge time 5 minutes.

13Environmental & Security

Environmental

Parameter	Operating	Storage
Temperature	0°C to 55°C	-25°C to 85°C
Humidity	15% to 95% non-condensing	15% to 95% non-condensing
Altitude	10,000 feet (3,000 meters)	50,000 feet (15,000 meters)

Initial Stabilization Time

For general use, the 12100 Series sensors are stable 5 minutes after electrical power is applied. Specifications in this datasheet are valid ONLY after a 30 minute warm-up period and for continuous wave (CW) signals unless otherwise stated. The recommended calibration interval is one year. Specifications apply over the listed temperature and relative humidity range unless otherwise stated.

Option MIL

Option MIL addresses security and data sanitization. With this option, the user cannot write to any non-volatile memory. Consult the factory for additional information regarding Option MIL.

Sanitization Option (SEC)

The sanitization option adds secure erase capability. When the SEC command is executed, all non-volatile memory is erased, including User Presets, Persona information, Store and Recall data, User Cal, Simple offsets, and FDO tables. The process is an erase, random overwrite erase process. For additional security, users can execute the command repeatedly. The option is not available if Option MIL is purchased, because non-volatile memory writes are disallowed with that option.

14Applications

Automated test equipment (ATE).
Direct control.
Research and development.
Manufacturing.
Radar, satellite, and telecommunications.

15Ordering & Outline Drawings

Specify the model number, which sets both the frequency reach and the standard connector. Choose the S build for coverage from 1 MHz or the L build for coverage from 9 kHz. Add options such as SPI / I2C, Analog Recorder Out (Option 001), Unattended Operation (UOP), and the MIL or SEC security options as the application requires.

Model	Standard connector
12108S / 12108L / 12118S / 12118L	Type-N male
12126S / 12126L	3.5 mm male
12140S / 12140L	2.92 mm male
12144S / 12144L / 12150S / 12150L / 12154L	2.4 mm male
12167L	1.85 mm male

Outline Drawings

Model 12100 Series outline drawing, new chassis — Model 12100 Series outline drawing (new chassis). Dimensions in inches; tolerance +/- 0.063 in.

Available Options & Accessories

ATE mounting bracket (also shown with SPI cable).
Secure USB cable.
SPI / I2C (Option SPI).
Demonstration kit available.
Optional connectors available.

Contact	Detail
Email	info@berkeleynucleonics.com
Phone	(415) 453-9955
Quote / demo	berkeleynucleonics.com/get-quote

Configuration note. Frequency reach, connector, dynamic range, and options vary by model. Confirm the exact build and all performance figures against the released Model 12100 Series datasheet (v2.4) before ordering.

Model 12100 Series USB RF Power Sensors